es;
}
/**
* Create a new instance of the given model.
*
* @param array $attributes
* @param bool $exists
*
* @return static
*/
public function newInstance($attributes = [], $exists = false)
{
// This method just provides a convenient way for us to generate fresh model
// instances of this current model. It is particularly useful during the
// hydration of new objects via the Eloquent query builder instances.
$model = new static((array)$attributes);
$model->exists = $exists;
return $model;
}
/**
* Create a new model instance that is existing.
*
* @param array $attributes
* @param string|null $connection
*
* @return static
*/
public function newFromBuilder($attributes = [], $connection = null)
{
$model = $this->newInstance([], true);
$model->setRawAttributes((array)$attributes, true);
$model->setConnection($connection ?: $this->getConnectionName());
return $model;
}
/**
* Create a collection of models from plain arrays.
*
* @param array $items
* @param string|null $connection
*
* @return \NinjaTables\Framework\Database\Eloquent\Collection
*/
public static function hydrate(array $items, $connection = null)
{
$instance = (new static)->setConnection($connection);
$items = array_map(function ($item) use ($instance) {
return $instance->newFromBuilder($item);
}, $items);
return $instance->newCollection($items);
}
/**
* Create a collection of models from a raw query.
*
* @param string $query
* @param array $bindings
* @param string|null $connection
*
* @return \NinjaTables\Framework\Database\Eloquent\Collection
*/
public static function hydrateRaw($query, $bindings = [], $connection = null)
{
$instance = (new static)->setConnection($connection);
$items = $instance->getConnection()->select($query, $bindings);
return static::hydrate($items, $connection);
}
/**
* Save a new model and return the instance.
*
* @param array $attributes
*
* @return static
*/
public static function create(array $attributes = [])
{
$model = new static($attributes);
$model->save();
return $model;
}
/**
* Save a new model and return the instance. Allow mass-assignment.
*
* @param array $attributes
*
* @return static
*/
public static function forceCreate(array $attributes)
{
// Since some versions of PHP have a bug that prevents it from properly
// binding the late static context in a closure, we will first store
// the model in a variable, which we will then use in the closure.
$model = new static;
return static::unguarded(function () use ($model, $attributes) {
return $model->create($attributes);
});
}
/**
* Begin querying the model.
*
* @return \NinjaTables\Framework\Database\Eloquent\Builder
*/
public static function query()
{
return (new static)->newQuery();
}
/**
* Begin querying the model on a given connection.
*
* @param string|null $connection
*
* @return \NinjaTables\Framework\Database\Eloquent\Builder
*/
public static function on($connection = null)
{
// First we will just create a fresh instance of this model, and then we can
// set the connection on the model so that it is be used for the queries
// we execute, as well as being set on each relationship we retrieve.
$instance = new static;
$instance->setConnection($connection);
return $instance->newQuery();
}
/**
* Begin querying the model on the write connection.
*
* @return \NinjaTables\Framework\Database\Query\Builder
*/
public static function onWriteConnection()
{
$instance = new static;
return $instance->newQuery()->useWritePdo();
}
/**
* Get all of the models from the database.
*
* @param array|mixed $columns
*
* @return \NinjaTables\Framework\Database\Eloquent\Collection|static[]
*/
public static function all($columns = ['*'])
{
$columns = is_array($columns) ? $columns : func_get_args();
$instance = new static;
return $instance->newQuery()->get($columns);
}
/**
* Reload a fresh model instance from the database.
*
* @param array|string $with
*
* @return $this|null
*/
public function fresh($with = [])
{
if ( ! $this->exists) {
return;
}
if (is_string($with)) {
$with = func_get_args();
}
$key = $this->getKeyName();
return static::with($with)->where($key, $this->getKey())->first();
}
/**
* Eager load relations on the model.
*
* @param array|string $relations
*
* @return $this
*/
public function load($relations)
{
if (is_string($relations)) {
$relations = func_get_args();
}
$query = $this->newQuery()->with($relations);
$query->eagerLoadRelations([$this]);
return $this;
}
/**
* Begin querying a model with eager loading.
*
* @param array|string $relations
*
* @return \NinjaTables\Framework\Database\Eloquent\Builder|static
*/
public static function with($relations)
{
if (is_string($relations)) {
$relations = func_get_args();
}
$instance = new static;
return $instance->newQuery()->with($relations);
}
/**
* Append attributes to query when building a query.
*
* @param array|string $attributes
*
* @return $this
*/
public function append($attributes)
{
if (is_string($attributes)) {
$attributes = func_get_args();
}
$this->appends = array_unique(
array_merge($this->appends, $attributes)
);
return $this;
}
/**
* Define a one-to-one relationship.
*
* @param string $related
* @param string $foreignKey
* @param string $localKey
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\HasOne
*/
public function hasOne($related, $foreignKey = null, $localKey = null)
{
$foreignKey = $foreignKey ?: $this->getForeignKey();
$instance = new $related;
$localKey = $localKey ?: $this->getKeyName();
return new HasOne($instance->newQuery(), $this, $instance->getTable() . '.' . $foreignKey, $localKey);
}
/**
* Define a polymorphic one-to-one relationship.
*
* @param string $related
* @param string $name
* @param string $type
* @param string $id
* @param string $localKey
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\MorphOne
*/
public function morphOne($related, $name, $type = null, $id = null, $localKey = null)
{
$instance = new $related;
list($type, $id) = $this->getMorphs($name, $type, $id);
$table = $instance->getTable();
$localKey = $localKey ?: $this->getKeyName();
return new MorphOne($instance->newQuery(), $this, $table . '.' . $type, $table . '.' . $id, $localKey);
}
/**
* Define an inverse one-to-one or many relationship.
*
* @param string $related
* @param string $foreignKey
* @param string $otherKey
* @param string $relation
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\BelongsTo
*/
public function belongsTo($related, $foreignKey = null, $otherKey = null, $relation = null)
{
// If no relation name was given, we will use this debug backtrace to extract
// the calling method's name and use that as the relationship name as most
// of the time this will be what we desire to use for the relationships.
if (is_null($relation)) {
list($current, $caller) = debug_backtrace(DEBUG_BACKTRACE_IGNORE_ARGS, 2);
$relation = $caller['function'];
}
// If no foreign key was supplied, we can use a backtrace to guess the proper
// foreign key name by using the name of the relationship function, which
// when combined with an "_id" should conventionally match the columns.
if (is_null($foreignKey)) {
$foreignKey = Str::snake($relation) . '_id';
}
$instance = new $related;
// Once we have the foreign key names, we'll just create a new Eloquent query
// for the related models and returns the relationship instance which will
// actually be responsible for retrieving and hydrating every relations.
$query = $instance->newQuery();
$otherKey = $otherKey ?: $instance->getKeyName();
return new BelongsTo($query, $this, $foreignKey, $otherKey, $relation);
}
/**
* Define a polymorphic, inverse one-to-one or many relationship.
*
* @param string $name
* @param string $type
* @param string $id
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\MorphTo
*/
public function morphTo($name = null, $type = null, $id = null)
{
// If no name is provided, we will use the backtrace to get the function name
// since that is most likely the name of the polymorphic interface. We can
// use that to get both the class and foreign key that will be utilized.
if (is_null($name)) {
list($current, $caller) = debug_backtrace(DEBUG_BACKTRACE_IGNORE_ARGS, 2);
$name = Str::snake($caller['function']);
}
list($type, $id) = $this->getMorphs($name, $type, $id);
// If the type value is null it is probably safe to assume we're eager loading
// the relationship. In this case we'll just pass in a dummy query where we
// need to remove any eager loads that may already be defined on a model.
if (empty($class = $this->$type)) {
return new MorphTo(
$this->newQuery()->setEagerLoads([]), $this, $id, null, $type, $name
);
}
// If we are not eager loading the relationship we will essentially treat this
// as a belongs-to style relationship since morph-to extends that class and
// we will pass in the appropriate values so that it behaves as expected.
else {
$class = $this->getActualClassNameForMorph($class);
$instance = new $class;
return new MorphTo(
$instance->newQuery(), $this, $id, $instance->getKeyName(), $type, $name
);
}
}
/**
* Retrieve the fully qualified class name from a slug.
*
* @param string $class
*
* @return string
*/
public function getActualClassNameForMorph($class)
{
return Arr::get(Relation::morphMap(), $class, $class);
}
/**
* Define a one-to-many relationship.
*
* @param string $related
* @param string $foreignKey
* @param string $localKey
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\HasMany
*/
public function hasMany($related, $foreignKey = null, $localKey = null)
{
$foreignKey = $foreignKey ?: $this->getForeignKey();
$instance = new $related;
$localKey = $localKey ?: $this->getKeyName();
return new HasMany($instance->newQuery(), $this, $instance->getTable() . '.' . $foreignKey, $localKey);
}
/**
* Define a has-many-through relationship.
*
* @param string $related
* @param string $through
* @param string|null $firstKey
* @param string|null $secondKey
* @param string|null $localKey
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\HasManyThrough
*/
public function hasManyThrough($related, $through, $firstKey = null, $secondKey = null, $localKey = null)
{
$through = new $through;
$firstKey = $firstKey ?: $this->getForeignKey();
$secondKey = $secondKey ?: $through->getForeignKey();
$localKey = $localKey ?: $this->getKeyName();
return new HasManyThrough((new $related)->newQuery(), $this, $through, $firstKey, $secondKey, $localKey);
}
/**
* Define a polymorphic one-to-many relationship.
*
* @param string $related
* @param string $name
* @param string $type
* @param string $id
* @param string $localKey
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\MorphMany
*/
public function morphMany($related, $name, $type = null, $id = null, $localKey = null)
{
$instance = new $related;
// Here we will gather up the morph type and ID for the relationship so that we
// can properly query the intermediate table of a relation. Finally, we will
// get the table and create the relationship instances for the developers.
list($type, $id) = $this->getMorphs($name, $type, $id);
$table = $instance->getTable();
$localKey = $localKey ?: $this->getKeyName();
return new MorphMany($instance->newQuery(), $this, $table . '.' . $type, $table . '.' . $id, $localKey);
}
/**
* Define a many-to-many relationship.
*
* @param string $related
* @param string $table
* @param string $foreignKey
* @param string $otherKey
* @param string $relation
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\BelongsToMany
*/
public function belongsToMany($related, $table = null, $foreignKey = null, $otherKey = null, $relation = null)
{
// If no relationship name was passed, we will pull backtraces to get the
// name of the calling function. We will use that function name as the
// title of this relation since that is a great convention to apply.
if (is_null($relation)) {
$relation = $this->getBelongsToManyCaller();
}
// First, we'll need to determine the foreign key and "other key" for the
// relationship. Once we have determined the keys we'll make the query
// instances as well as the relationship instances we need for this.
$foreignKey = $foreignKey ?: $this->getForeignKey();
$instance = new $related;
$otherKey = $otherKey ?: $instance->getForeignKey();
// If no table name was provided, we can guess it by concatenating the two
// models using underscores in alphabetical order. The two model names
// are transformed to snake case from their default CamelCase also.
if (is_null($table)) {
$table = $this->joiningTable($related);
}
// Now we're ready to create a new query builder for the related model and
// the relationship instances for the relation. The relations will set
// appropriate query constraint and entirely manages the hydrations.
$query = $instance->newQuery();
return new BelongsToMany($query, $this, $table, $foreignKey, $otherKey, $relation);
}
/**
* Define a polymorphic many-to-many relationship.
*
* @param string $related
* @param string $name
* @param string $table
* @param string $foreignKey
* @param string $otherKey
* @param bool $inverse
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\MorphToMany
*/
public function morphToMany($related, $name, $table = null, $foreignKey = null, $otherKey = null, $inverse = false)
{
$caller = $this->getBelongsToManyCaller();
// First, we will need to determine the foreign key and "other key" for the
// relationship. Once we have determined the keys we will make the query
// instances, as well as the relationship instances we need for these.
$foreignKey = $foreignKey ?: $name . '_id';
$instance = new $related;
$otherKey = $otherKey ?: $instance->getForeignKey();
// Now we're ready to create a new query builder for this related model and
// the relationship instances for this relation. This relations will set
// appropriate query constraints then entirely manages the hydrations.
$query = $instance->newQuery();
$table = $table ?: Str::plural($name);
return new MorphToMany(
$query, $this, $name, $table, $foreignKey,
$otherKey, $caller, $inverse
);
}
/**
* Define a polymorphic, inverse many-to-many relationship.
*
* @param string $related
* @param string $name
* @param string $table
* @param string $foreignKey
* @param string $otherKey
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\MorphToMany
*/
public function morphedByMany($related, $name, $table = null, $foreignKey = null, $otherKey = null)
{
$foreignKey = $foreignKey ?: $this->getForeignKey();
// For the inverse of the polymorphic many-to-many relations, we will change
// the way we determine the foreign and other keys, as it is the opposite
// of the morph-to-many method since we're figuring out these inverses.
$otherKey = $otherKey ?: $name . '_id';
return $this->morphToMany($related, $name, $table, $foreignKey, $otherKey, true);
}
/**
* Get the relationship name of the belongs to many.
*
* @return string
*/
protected function getBelongsToManyCaller()
{
$self = __FUNCTION__;
$caller = Arr::first(debug_backtrace(DEBUG_BACKTRACE_IGNORE_ARGS), function ($key, $trace) use ($self) {
$caller = $trace['function'];
return ! in_array($caller, Model::$manyMethods) && $caller != $self;
});
return ! is_null($caller) ? $caller['function'] : null;
}
/**
* Get the joining table name for a many-to-many relation.
*
* @param string $related
*
* @return string
*/
public function joiningTable($related)
{
// The joining table name, by convention, is simply the snake cased models
// sorted alphabetically and concatenated with an underscore, so we can
// just sort the models and join them together to get the table name.
$base = Str::snake(static::classBasename($this));
$related = Str::snake(static::classBasename($related));
$models = [$related, $base];
// Now that we have the model names in an array we can just sort them and
// use the implode function to join them together with an underscores,
// which is typically used by convention within the database system.
sort($models);
return strtolower(implode('_', $models));
}
/**
* Destroy the models for the given IDs.
*
* @param array|int $ids
*
* @return int
*/
public static function destroy($ids)
{
// We'll initialize a count here so we will return the total number of deletes
// for the operation. The developers can then check this number as a boolean
// type value or get this total count of records deleted for logging, etc.
$count = 0;
$ids = is_array($ids) ? $ids : func_get_args();
$instance = new static;
// We will actually pull the models from the database table and call delete on
// each of them individually so that their events get fired properly with a
// correct set of attributes in case the developers wants to check these.
$key = $instance->getKeyName();
foreach ($instance->whereIn($key, $ids)->get() as $model) {
if ($model->delete()) {
$count++;
}
}
return $count;
}
/**
* Delete the model from the database.
*
* @return bool|null
*
* @throws \Exception
*/
public function delete()
{
if (is_null($this->getKeyName())) {
throw new Exception('No primary key defined on model.');
}
if ($this->exists) {
if ($this->fireModelEvent('deleting') === false) {
return false;
}
// Here, we'll touch the owning models, verifying these timestamps get updated
// for the models. This will allow any caching to get broken on the parents
// by the timestamp. Then we will go ahead and delete the model instance.
$this->touchOwners();
$this->performDeleteOnModel();
$this->exists = false;
// Once the model has been deleted, we will fire off the deleted event so that
// the developers may hook into post-delete operations. We will then return
// a boolean true as the delete is presumably successful on the database.
$this->fireModelEvent('deleted', false);
return true;
}
}
/**
* Force a hard delete on a soft deleted model.
*
* This method protects developers from running forceDelete when trait is missing.
*
* @return bool|null
*/
public function forceDelete()
{
return $this->delete();
}
/**
* Perform the actual delete query on this model instance.
*
* @return void
*/
protected function performDeleteOnModel()
{
$this->setKeysForSaveQuery($this->newQueryWithoutScopes())->delete();
}
/**
* Register a saving model event with the dispatcher.
*
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
public static function saving($callback, $priority = 0)
{
static::registerModelEvent('saving', $callback, $priority);
}
/**
* Register a saved model event with the dispatcher.
*
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
public static function saved($callback, $priority = 0)
{
static::registerModelEvent('saved', $callback, $priority);
}
/**
* Register an updating model event with the dispatcher.
*
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
public static function updating($callback, $priority = 0)
{
static::registerModelEvent('updating', $callback, $priority);
}
/**
* Register an updated model event with the dispatcher.
*
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
public static function updated($callback, $priority = 0)
{
static::registerModelEvent('updated', $callback, $priority);
}
/**
* Register a creating model event with the dispatcher.
*
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
public static function creating($callback, $priority = 0)
{
static::registerModelEvent('creating', $callback, $priority);
}
/**
* Register a created model event with the dispatcher.
*
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
public static function created($callback, $priority = 0)
{
static::registerModelEvent('created', $callback, $priority);
}
/**
* Register a deleting model event with the dispatcher.
*
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
public static function deleting($callback, $priority = 0)
{
static::registerModelEvent('deleting', $callback, $priority);
}
/**
* Register a deleted model event with the dispatcher.
*
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
public static function deleted($callback, $priority = 0)
{
static::registerModelEvent('deleted', $callback, $priority);
}
/**
* Remove all of the event listeners for the model.
*
* @return void
*/
public static function flushEventListeners()
{
if ( ! isset(static::$dispatcher)) {
return;
}
$instance = new static;
foreach ($instance->getObservableEvents() as $event) {
static::$dispatcher->forget("eloquent.{$event}: " . static::class);
}
}
/**
* Register a model event with the dispatcher.
*
* @param string $event
* @param \Closure|string $callback
* @param int $priority
*
* @return void
*/
protected static function registerModelEvent($event, $callback, $priority = 0)
{
if (isset(static::$dispatcher)) {
$name = static::class;
static::$dispatcher->listen("eloquent.{$event}: {$name}", $callback, $priority);
}
}
/**
* Get the observable event names.
*
* @return array
*/
public function getObservableEvents()
{
return array_merge(
[
'creating',
'created',
'updating',
'updated',
'deleting',
'deleted',
'saving',
'saved',
'restoring',
'restored',
],
$this->observables
);
}
/**
* Set the observable event names.
*
* @param array $observables
*
* @return $this
*/
public function setObservableEvents(array $observables)
{
$this->observables = $observables;
return $this;
}
/**
* Add an observable event name.
*
* @param array|mixed $observables
*
* @return void
*/
public function addObservableEvents($observables)
{
$observables = is_array($observables) ? $observables : func_get_args();
$this->observables = array_unique(array_merge($this->observables, $observables));
}
/**
* Remove an observable event name.
*
* @param array|mixed $observables
*
* @return void
*/
public function removeObservableEvents($observables)
{
$observables = is_array($observables) ? $observables : func_get_args();
$this->observables = array_diff($this->observables, $observables);
}
/**
* Increment a column's value by a given amount.
*
* @param string $column
* @param int $amount
* @param array $extra
*
* @return int
*/
protected function increment($column, $amount = 1, array $extra = [])
{
return $this->incrementOrDecrement($column, $amount, $extra, 'increment');
}
/**
* Decrement a column's value by a given amount.
*
* @param string $column
* @param int $amount
* @param array $extra
*
* @return int
*/
protected function decrement($column, $amount = 1, array $extra = [])
{
return $this->incrementOrDecrement($column, $amount, $extra, 'decrement');
}
/**
* Run the increment or decrement method on the model.
*
* @param string $column
* @param int $amount
* @param array $extra
* @param string $method
*
* @return int
*/
protected function incrementOrDecrement($column, $amount, $extra, $method)
{
$query = $this->newQuery();
if ( ! $this->exists) {
return $query->{$method}($column, $amount, $extra);
}
$this->incrementOrDecrementAttributeValue($column, $amount, $method);
return $query->where($this->getKeyName(), $this->getKey())->{$method}($column, $amount, $extra);
}
/**
* Increment the underlying attribute value and sync with original.
*
* @param string $column
* @param int $amount
* @param string $method
*
* @return void
*/
protected function incrementOrDecrementAttributeValue($column, $amount, $method)
{
$this->{$column} = $this->{$column} + ($method == 'increment' ? $amount : $amount * -1);
$this->syncOriginalAttribute($column);
}
/**
* Update the model in the database.
*
* @param array $attributes
* @param array $options
*
* @return bool|int
*/
public function update(array $attributes = [], array $options = [])
{
if ( ! $this->exists) {
return false;
}
return $this->fill($attributes)->save($options);
}
/**
* Save the model and all of its relationships.
*
* @return bool
*/
public function push()
{
if ( ! $this->save()) {
return false;
}
// To sync all of the relationships to the database, we will simply spin through
// the relationships and save each model via this "push" method, which allows
// us to recurse into all of these nested relations for the model instance.
foreach ($this->relations as $models) {
$models = $models instanceof Collection
? $models->all() : [$models];
foreach (array_filter($models) as $model) {
if ( ! $model->push()) {
return false;
}
}
}
return true;
}
/**
* Save the model to the database.
*
* @param array $options
*
* @return bool
*/
public function save(array $options = [])
{
$query = $this->newQueryWithoutScopes();
// If the "saving" event returns false we'll bail out of the save and return
// false, indicating that the save failed. This provides a chance for any
// listeners to cancel save operations if validations fail or whatever.
if ($this->fireModelEvent('saving') === false) {
return false;
}
// If the model already exists in the database we can just update our record
// that is already in this database using the current IDs in this "where"
// clause to only update this model. Otherwise, we'll just insert them.
if ($this->exists) {
$saved = $this->performUpdate($query, $options);
}
// If the model is brand new, we'll insert it into our database and set the
// ID attribute on the model to the value of the newly inserted row's ID
// which is typically an auto-increment value managed by the database.
else {
$saved = $this->performInsert($query, $options);
}
if ($saved) {
$this->finishSave($options);
}
return $saved;
}
/**
* Save the model to the database using transaction.
*
* @param array $options
*
* @return bool
*
* @throws \Throwable
*/
public function saveOrFail(array $options = [])
{
return $this->getConnection()->transaction(function () use ($options) {
return $this->save($options);
});
}
/**
* Finish processing on a successful save operation.
*
* @param array $options
*
* @return void
*/
protected function finishSave(array $options)
{
$this->fireModelEvent('saved', false);
$this->syncOriginal();
if (Arr::get($options, 'touch', true)) {
$this->touchOwners();
}
}
/**
* Perform a model update operation.
*
* @param \NinjaTables\Framework\Database\Eloquent\Builder $query
* @param array $options
*
* @return bool
*/
protected function performUpdate(Builder $query, array $options = [])
{
$dirty = $this->getDirty();
if (count($dirty) > 0) {
// If the updating event returns false, we will cancel the update operation so
// developers can hook Validation systems into their models and cancel this
// operation if the model does not pass validation. Otherwise, we update.
if ($this->fireModelEvent('updating') === false) {
return false;
}
// First we need to create a fresh query instance and touch the creation and
// update timestamp on the model which are maintained by us for developer
// convenience. Then we will just continue saving the model instances.
if ($this->timestamps && Arr::get($options, 'timestamps', true)) {
$this->updateTimestamps();
}
// Once we have run the update operation, we will fire the "updated" event for
// this model instance. This will allow developers to hook into these after
// models are updated, giving them a chance to do any special processing.
$dirty = $this->getDirty();
if (count($dirty) > 0) {
$numRows = $this->setKeysForSaveQuery($query)->update($dirty);
$this->fireModelEvent('updated', false);
}
}
return true;
}
/**
* Perform a model insert operation.
*
* @param \NinjaTables\Framework\Database\Eloquent\Builder $query
* @param array $options
*
* @return bool
*/
protected function performInsert(Builder $query, array $options = [])
{
if ($this->fireModelEvent('creating') === false) {
return false;
}
// First we'll need to create a fresh query instance and touch the creation and
// update timestamps on this model, which are maintained by us for developer
// convenience. After, we will just continue saving these model instances.
if ($this->timestamps && Arr::get($options, 'timestamps', true)) {
$this->updateTimestamps();
}
// If the model has an incrementing key, we can use the "insertGetId" method on
// the query builder, which will give us back the final inserted ID for this
// table from the database. Not all tables have to be incrementing though.
$attributes = $this->attributes;
if ($this->getIncrementing()) {
$this->insertAndSetId($query, $attributes);
}
// If the table isn't incrementing we'll simply insert these attributes as they
// are. These attribute arrays must contain an "id" column previously placed
// there by the developer as the manually determined key for these models.
else {
$query->insert($attributes);
}
// We will go ahead and set the exists property to true, so that it is set when
// the created event is fired, just in case the developer tries to update it
// during the event. This will allow them to do so and run an update here.
$this->exists = true;
$this->wasRecentlyCreated = true;
$this->fireModelEvent('created', false);
return true;
}
/**
* Insert the given attributes and set the ID on the model.
*
* @param \NinjaTables\Framework\Database\Eloquent\Builder $query
* @param array $attributes
*
* @return void
*/
protected function insertAndSetId(Builder $query, $attributes)
{
$id = $query->insertGetId($attributes, $keyName = $this->getKeyName());
$this->setAttribute($keyName, $id);
}
/**
* Touch the owning relations of the model.
*
* @return void
*/
public function touchOwners()
{
foreach ($this->touches as $relation) {
$this->$relation()->touch();
if ($this->$relation instanceof self) {
$this->$relation->fireModelEvent('saved', false);
$this->$relation->touchOwners();
} elseif ($this->$relation instanceof Collection) {
$this->$relation->each(function (Model $relation) {
$relation->touchOwners();
});
}
}
}
/**
* Determine if the model touches a given relation.
*
* @param string $relation
*
* @return bool
*/
public function touches($relation)
{
return in_array($relation, $this->touches);
}
/**
* Fire the given event for the model.
*
* @param string $event
* @param bool $halt
*
* @return mixed
*/
protected function fireModelEvent($event, $halt = true)
{
if ( ! isset(static::$dispatcher)) {
return true;
}
// We will append the names of the class to the event to distinguish it from
// other model events that are fired, allowing us to listen on each model
// event set individually instead of catching event for all the models.
$event = "eloquent.{$event}: " . static::class;
$method = $halt ? 'until' : 'fire';
return static::$dispatcher->$method($event, $this);
}
/**
* Set the keys for a save update query.
*
* @param \NinjaTables\Framework\Database\Eloquent\Builder $query
*
* @return \NinjaTables\Framework\Database\Eloquent\Builder
*/
protected function setKeysForSaveQuery(Builder $query)
{
$query->where($this->getKeyName(), '=', $this->getKeyForSaveQuery());
return $query;
}
/**
* Get the primary key value for a save query.
*
* @return mixed
*/
protected function getKeyForSaveQuery()
{
if (isset($this->original[$this->getKeyName()])) {
return $this->original[$this->getKeyName()];
}
return $this->getAttribute($this->getKeyName());
}
/**
* Update the model's update timestamp.
*
* @return bool
*/
public function touch()
{
if ( ! $this->timestamps) {
return false;
}
$this->updateTimestamps();
return $this->save();
}
/**
* Update the creation and update timestamps.
*
* @return void
*/
protected function updateTimestamps()
{
$time = $this->freshTimestamp();
if ( ! $this->isDirty(static::UPDATED_AT)) {
$this->setUpdatedAt($time);
}
if ( ! $this->exists && ! $this->isDirty(static::CREATED_AT)) {
$this->setCreatedAt($time);
}
}
/**
* Set the value of the "created at" attribute.
*
* @param mixed $value
*
* @return $this
*/
public function setCreatedAt($value)
{
$this->{static::CREATED_AT} = $value;
return $this;
}
/**
* Set the value of the "updated at" attribute.
*
* @param mixed $value
*
* @return $this
*/
public function setUpdatedAt($value)
{
$this->{static::UPDATED_AT} = $value;
return $this;
}
/**
* Get the name of the "created at" column.
*
* @return string
*/
public function getCreatedAtColumn()
{
return static::CREATED_AT;
}
/**
* Get the name of the "updated at" column.
*
* @return string
*/
public function getUpdatedAtColumn()
{
return static::UPDATED_AT;
}
/**
* Get a fresh timestamp for the model.
*
* @return \NinjaTables\Framework\Database\Orm\DateTime
*/
public function freshTimestamp()
{
return new DateTime('now', $this->getTimezone());
}
/**
* Get a fresh timestamp for the model.
*
* @return string
*/
public function freshTimestampString()
{
return $this->fromDateTime($this->freshTimestamp());
}
/**
* Get a new query builder for the model's table.
*
* @return \NinjaTables\Framework\Database\Eloquent\Builder
*/
public function newQuery()
{
$builder = $this->newQueryWithoutScopes();
foreach ($this->getGlobalScopes() as $identifier => $scope) {
$builder->withGlobalScope($identifier, $scope);
}
return $builder;
}
/**
* Get a new query instance without a given scope.
*
* @param \NinjaTables\Framework\Database\Eloquent\Scope|string $scope
*
* @return \NinjaTables\Framework\Database\Eloquent\Builder
*/
public function newQueryWithoutScope($scope)
{
$builder = $this->newQuery();
return $builder->withoutGlobalScope($scope);
}
/**
* Get a new query builder that doesn't have any global scopes.
*
* @return \NinjaTables\Framework\Database\Eloquent\Builder|static
*/
public function newQueryWithoutScopes()
{
$builder = $this->newEloquentBuilder(
$this->newBaseQueryBuilder()
);
// Once we have the query builders, we will set the model instances so the
// builder can easily access any information it may need from the model
// while it is constructing and executing various queries against it.
return $builder->setModel($this)->with($this->with);
}
/**
* Create a new Eloquent query builder for the model.
*
* @param \NinjaTables\Framework\Database\Query\Builder $query
*
* @return \NinjaTables\Framework\Database\Eloquent\Builder|static
*/
public function newEloquentBuilder($query)
{
return new Builder($query);
}
/**
* Get a new query builder instance for the connection.
*
* @return \NinjaTables\Framework\Database\Query\Builder
*/
protected function newBaseQueryBuilder()
{
$conn = $this->getConnection();
$grammar = $conn->getQueryGrammar();
return new QueryBuilder($conn, $grammar, $conn->getPostProcessor());
}
/**
* Create a new Eloquent Collection instance.
*
* @param array $models
*
* @return \NinjaTables\Framework\Database\Eloquent\Collection
*/
public function newCollection(array $models = [])
{
return new Collection($models);
}
/**
* Create a new pivot model instance.
*
* @param \NinjaTables\Framework\Database\Eloquent\Model $parent
* @param array $attributes
* @param string $table
* @param bool $exists
*
* @return \NinjaTables\Framework\Database\Eloquent\Relations\Pivot
*/
public function newPivot(Model $parent, array $attributes, $table, $exists)
{
return new Pivot($parent, $attributes, $table, $exists);
}
/**
* Get the table associated with the model.
*
* @return string
*/
public function getTable()
{
if (isset($this->table)) {
return $this->table;
}
return str_replace('\\', '', Str::snake(Str::plural(static::classBasename($this))));
}
/**
* Set the table associated with the model.
*
* @param string $table
*
* @return $this
*/
public function setTable($table)
{
$this->table = $table;
return $this;
}
/**
* Get the value of the model's primary key.
*
* @return mixed
*/
public function getKey()
{
return $this->getAttribute($this->getKeyName());
}
/**
* Get the queueable identity for the entity.
*
* @return mixed
*/
public function getQueueableId()
{
return $this->getKey();
}
/**
* Get the primary key for the model.
*
* @return string
*/
public function getKeyName()
{
return $this->primaryKey;
}
/**
* Set the primary key for the model.
*
* @param string $key
*
* @return $this
*/
public function setKeyName($key)
{
$this->primaryKey = $key;
return $this;
}
/**
* Get the table qualified key name.
*
* @return string
*/
public function getQualifiedKeyName()
{
return $this->getTable() . '.' . $this->getKeyName();
}
/**
* Get the value of the model's route key.
*
* @return mixed
*/
public function getRouteKey()
{
return $this->getAttribute($this->getRouteKeyName());
}
/**
* Get the route key for the model.
*
* @return string
*/
public function getRouteKeyName()
{
return $this->getKeyName();
}
/**
* Determine if the model uses timestamps.
*
* @return bool
*/
public function usesTimestamps()
{
return $this->timestamps;
}
/**
* Get the polymorphic relationship columns.
*
* @param string $name
* @param string $type
* @param string $id
*
* @return array
*/
protected function getMorphs($name, $type, $id)
{
$type = $type ?: $name . '_type';
$id = $id ?: $name . '_id';
return [$type, $id];
}
/**
* Get the class name for polymorphic relations.
*
* @return string
*/
public function getMorphClass()
{
$morphMap = Relation::morphMap();
$class = static::class;
if ( ! empty($morphMap) && in_array($class, $morphMap)) {
return array_search($class, $morphMap, true);
}
return $this->morphClass ?: $class;
}
/**
* Get the number of models to return per page.
*
* @return int
*/
public function getPerPage()
{
return $this->perPage;
}
/**
* Set the number of models to return per page.
*
* @param int $perPage
*
* @return $this
*/
public function setPerPage($perPage)
{
$this->perPage = $perPage;
return $this;
}
/**
* Get the default foreign key name for the model.
*
* @return string
*/
public function getForeignKey()
{
return Str::snake(static::classBasename($this)) . '_id';
}
/**
* Get the hidden attributes for the model.
*
* @return array
*/
public function getHidden()
{
return $this->hidden;
}
/**
* Set the hidden attributes for the model.
*
* @param array $hidden
*
* @return $this
*/
public function setHidden(array $hidden)
{
$this->hidden = $hidden;
return $this;
}
/**
* Add hidden attributes for the model.
*
* @param array|string|null $attributes
*
* @return void
*/
public function addHidden($attributes = null)
{
$attributes = is_array($attributes) ? $attributes : func_get_args();
$this->hidden = array_merge($this->hidden, $attributes);
}
/**
* Make the given, typically hidden, attributes visible.
*
* @param array|string $attributes
*
* @return $this
*/
public function makeVisible($attributes)
{
$this->hidden = array_diff($this->hidden, (array)$attributes);
if ( ! empty($this->visible)) {
$this->addVisible($attributes);
}
return $this;
}
/**
* Make the given, typically visible, attributes hidden.
*
* @param array|string $attributes
*
* @return $this
*/
public function makeHidden($attributes)
{
$attributes = (array)$attributes;
$this->visible = array_diff($this->visible, $attributes);
$this->hidden = array_unique(array_merge($this->hidden, $attributes));
return $this;
}
/**
* Make the given, typically hidden, attributes visible.
*
* @param array|string $attributes
*
* @return $this
*
* @deprecated since version 5.2. Use the "makeVisible" method directly.
*/
public function withHidden($attributes)
{
return $this->makeVisible($attributes);
}
/**
* Get the visible attributes for the model.
*
* @return array
*/
public function getVisible()
{
return $this->visible;
}
/**
* Set the visible attributes for the model.
*
* @param array $visible
*
* @return $this
*/
public function setVisible(array $visible)
{
$this->visible = $visible;
return $this;
}
/**
* Add visible attributes for the model.
*
* @param array|string|null $attributes
*
* @return void
*/
public function addVisible($attributes = null)
{
$attributes = is_array($attributes) ? $attributes : func_get_args();
$this->visible = array_merge($this->visible, $attributes);
}
/**
* Set the accessors to append to model arrays.
*
* @param array $appends
*
* @return $this
*/
public function setAppends(array $appends)
{
$this->appends = $appends;
return $this;
}
/**
* Get the fillable attributes for the model.
*
* @return array
*/
public function getFillable()
{
return $this->fillable;
}
/**
* Set the fillable attributes for the model.
*
* @param array $fillable
*
* @return $this
*/
public function fillable(array $fillable)
{
$this->fillable = $fillable;
return $this;
}
/**
* Get the guarded attributes for the model.
*
* @return array
*/
public function getGuarded()
{
return $this->guarded;
}
/**
* Set the guarded attributes for the model.
*
* @param array $guarded
*
* @return $this
*/
public function guard(array $guarded)
{
$this->guarded = $guarded;
return $this;
}
/**
* Disable all mass assignable restrictions.
*
* @param bool $state
*
* @return void
*/
public static function unguard($state = true)
{
static::$unguarded = $state;
}
/**
* Enable the mass assignment restrictions.
*
* @return void
*/
public static function reguard()
{
static::$unguarded = false;
}
/**
* Determine if current state is "unguarded".
*
* @return bool
*/
public static function isUnguarded()
{
return static::$unguarded;
}
/**
* Run the given callable while being unguarded.
*
* @param callable $callback
*
* @return mixed
*/
public static function unguarded(callable $callback)
{
if (static::$unguarded) {
return $callback();
}
static::unguard();
try {
return $callback();
} finally {
static::reguard();
}
}
/**
* Determine if the given attribute may be mass assigned.
*
* @param string $key
*
* @return bool
*/
public function isFillable($key)
{
if (static::$unguarded) {
return true;
}
// If the key is in the "fillable" array, we can of course assume that it's
// a fillable attribute. Otherwise, we will check the guarded array when
// we need to determine if the attribute is black-listed on the model.
if (in_array($key, $this->getFillable())) {
return true;
}
if ($this->isGuarded($key)) {
return false;
}
return empty($this->getFillable()) && ! Str::startsWith($key, '_');
}
/**
* Determine if the given key is guarded.
*
* @param string $key
*
* @return bool
*/
public function isGuarded($key)
{
return in_array($key, $this->getGuarded()) || $this->getGuarded() == ['*'];
}
/**
* Determine if the model is totally guarded.
*
* @return bool
*/
public function totallyGuarded()
{
return count($this->getFillable()) == 0 && $this->getGuarded() == ['*'];
}
/**
* Remove the table name from a given key.
*
* @param string $key
*
* @return string
*/
protected function removeTableFromKey($key)
{
if ( ! Str::contains($key, '.')) {
return $key;
}
return Helper::last(explode('.', $key));
}
/**
* Get the relationships that are touched on save.
*
* @return array
*/
public function getTouchedRelations()
{
return $this->touches;
}
/**
* Set the relationships that are touched on save.
*
* @param array $touches
*
* @return $this
*/
public function setTouchedRelations(array $touches)
{
$this->touches = $touches;
return $this;
}
/**
* Get the value indicating whether the IDs are incrementing.
*
* @return bool
*/
public function getIncrementing()
{
return $this->incrementing;
}
/**
* Set whether IDs are incrementing.
*
* @param bool $value
*
* @return $this
*/
public function setIncrementing($value)
{
$this->incrementing = $value;
return $this;
}
/**
* Convert the model instance to JSON.
*
* @param int $options
*
* @return string
*/
public function toJson($options = 0)
{
return json_encode($this->jsonSerialize(), $options);
}
/**
* Convert the object into something JSON serializable.
*
* @return array
*/
#[\ReturnTypeWillChange]
public function jsonSerialize()
{
return $this->toArray();
}
/**
* Convert the model instance to an array.
*
* @return array
*/
public function toArray()
{
$attributes = $this->attributesToArray();
return array_merge($attributes, $this->relationsToArray());
}
/**
* Convert the model's attributes to an array.
*
* @return array
*/
public function attributesToArray()
{
$attributes = $this->getArrayableAttributes();
// If an attribute is a date, we will cast it to a string after converting it
// to a DateTime / Carbon instance. This is so we will get some consistent
// formatting while accessing attributes vs. arraying / JSONing a model.
foreach ($this->getDates() as $key) {
if ( ! isset($attributes[$key])) {
continue;
}
$attributes[$key] = $this->serializeDate(
$this->asDateTime($attributes[$key])
);
}
$mutatedAttributes = $this->getMutatedAttributes();
// We want to spin through all the mutated attributes for this model and call
// the mutator for the attribute. We cache off every mutated attributes so
// we don't have to constantly check on attributes that actually change.
foreach ($mutatedAttributes as $key) {
if ( ! array_key_exists($key, $attributes)) {
continue;
}
$attributes[$key] = $this->mutateAttributeForArray(
$key, $attributes[$key]
);
}
// Next we will handle any casts that have been setup for this model and cast
// the values to their appropriate type. If the attribute has a mutator we
// will not perform the cast on those attributes to avoid any confusion.
foreach ($this->getCasts() as $key => $value) {
if ( ! array_key_exists($key, $attributes) ||
in_array($key, $mutatedAttributes)) {
continue;
}
$attributes[$key] = $this->castAttribute(
$key, $attributes[$key]
);
if ($attributes[$key] && ($value === 'date' || $value === 'datetime')) {
$attributes[$key] = $this->serializeDate($attributes[$key]);
}
}
// Here we will grab all of the appended, calculated attributes to this model
// as these attributes are not really in the attributes array, but are run
// when we need to array or JSON the model for convenience to the coder.
foreach ($this->getArrayableAppends() as $key) {
$attributes[$key] = $this->mutateAttributeForArray($key, null);
}
return $attributes;
}
/**
* Get an attribute array of all arrayable attributes.
*
* @return array
*/
protected function getArrayableAttributes()
{
return $this->getArrayableItems($this->attributes);
}
/**
* Get all of the appendable values that are arrayable.
*
* @return array
*/
protected function getArrayableAppends()
{
if ( ! count($this->appends)) {
return [];
}
return $this->getArrayableItems(
array_combine($this->appends, $this->appends)
);
}
/**
* Get the model's relationships in array form.
*
* @return array
*/
public function relationsToArray()
{
$attributes = [];
foreach ($this->getArrayableRelations() as $key => $value) {
// If the values implements the Arrayable interface we can just call this
// toArray method on the instances which will convert both models and
// collections to their proper array form and we'll set the values.
if ($value instanceof ArrayableInterface) {
$relation = $value->toArray();
}
// If the value is null, we'll still go ahead and set it in this list of
// attributes since null is used to represent empty relationships if
// if it a has one or belongs to type relationships on the models.
elseif (is_null($value)) {
$relation = $value;
}
// If the relationships snake-casing is enabled, we will snake case this
// key so that the relation attribute is snake cased in this returned
// array to the developers, making this consistent with attributes.
if (static::$snakeAttributes) {
$key = Str::snake($key);
}
// If the relation value has been set, we will set it on this attributes
// list for returning. If it was not arrayable or null, we'll not set
// the value on the array because it is some type of invalid value.
if (isset($relation) || is_null($value)) {
$attributes[$key] = $relation;
}
unset($relation);
}
return $attributes;
}
/**
* Get an attribute array of all arrayable relations.
*
* @return array
*/
protected function getArrayableRelations()
{
return $this->getArrayableItems($this->relations);
}
/**
* Get an attribute array of all arrayable values.
*
* @param array $values
*
* @return array
*/
protected function getArrayableItems(array $values)
{
if (count($this->getVisible()) > 0) {
$values = array_intersect_key($values, array_flip($this->getVisible()));
}
if (count($this->getHidden()) > 0) {
$values = array_diff_key($values, array_flip($this->getHidden()));
}
return $values;
}
/**
* Get an attribute from the model.
*
* @param string $key
*
* @return mixed
*/
public function getAttribute($key)
{
if (array_key_exists($key, $this->attributes) || $this->hasGetMutator($key)) {
return $this->getAttributeValue($key);
}
return $this->getRelationValue($key);
}
/**
* Get a plain attribute (not a relationship).
*
* @param string $key
*
* @return mixed
*/
public function getAttributeValue($key)
{
$value = $this->getAttributeFromArray($key);
// If the attribute has a get mutator, we will call that then return what
// it returns as the value, which is useful for transforming values on
// retrieval from the model to a form that is more useful for usage.
if ($this->hasGetMutator($key)) {
return $this->mutateAttribute($key, $value);
}
// If the attribute exists within the cast array, we will convert it to
// an appropriate native PHP type dependant upon the associated value
// given with the key in the pair. Dayle made this comment line up.
if ($this->hasCast($key)) {
return $this->castAttribute($key, $value);
}
// If the attribute is listed as a date, we will convert it to a DateTime
// instance on retrieval, which makes it quite convenient to work with
// date fields without having to create a mutator for each property.
if (in_array($key, $this->getDates()) && ! is_null($value)) {
return $this->asDateTime($value);
}
return $value;
}
/**
* Get a relationship.
*
* @param string $key
*
* @return mixed
*/
public function getRelationValue($key)
{
// If the key already exists in the relationships array, it just means the
// relationship has already been loaded, so we'll just return it out of
// here because there is no need to query within the relations twice.
if ($this->relationLoaded($key)) {
return $this->relations[$key];
}
// If the "attribute" exists as a method on the model, we will just assume
// it is a relationship and will load and return results from the query
// and hydrate the relationship's value on the "relationships" array.
if (method_exists($this, $key)) {
return $this->getRelationshipFromMethod($key);
}
}
/**
* Get an attribute from the $attributes array.
*
* @param string $key
*
* @return mixed
*/
protected function getAttributeFromArray($key)
{
if (array_key_exists($key, $this->attributes)) {
return $this->attributes[$key];
}
}
/**
* Get a relationship value from a method.
*
* @param string $method
*
* @return mixed
*
* @throws \LogicException
*/
protected function getRelationshipFromMethod($method)
{
$relations = $this->$method();
if ( ! $relations instanceof Relation) {
throw new LogicException('Relationship method must return an object of type '
. 'NinjaTables\Framework\Database\Eloquent\Relations\Relation');
}
$this->setRelation($method, $results = $relations->getResults());
return $results;
}
/**
* Determine if a get mutator exists for an attribute.
*
* @param string $key
*
* @return bool
*/
public function hasGetMutator($key)
{
return method_exists($this, 'get' . Str::studly($key) . 'Attribute');
}
/**
* Get the value of an attribute using its mutator.
*
* @param string $key
* @param mixed $value
*
* @return mixed
*/
protected function mutateAttribute($key, $value)
{
return $this->{'get' . Str::studly($key) . 'Attribute'}($value);
}
/**
* Get the value of an attribute using its mutator for array conversion.
*
* @param string $key
* @param mixed $value
*
* @return mixed
*/
protected function mutateAttributeForArray($key, $value)
{
$value = $this->mutateAttribute($key, $value);
return $value instanceof ArrayableInterface ? $value->toArray() : $value;
}
/**
* Determine whether an attribute should be cast to a native type.
*
* @param string $key
* @param array|string|null $types
*
* @return bool
*/
public function hasCast($key, $types = null)
{
if (array_key_exists($key, $this->getCasts())) {
return $types ? in_array($this->getCastType($key), (array)$types, true) : true;
}
return false;
}
/**
* Get the casts array.
*
* @return array
*/
public function getCasts()
{
if ($this->getIncrementing()) {
return array_merge([
$this->getKeyName() => $this->keyType,
], $this->casts);
}
return $this->casts;
}
/**
* Determine whether a value is Date / DateTime castable for inbound manipulation.
*
* @param string $key
*
* @return bool
*/
protected function isDateCastable($key)
{
return $this->hasCast($key, ['date', 'datetime']);
}
/**
* Determine whether a value is JSON castable for inbound manipulation.
*
* @param string $key
*
* @return bool
*/
protected function isJsonCastable($key)
{
return $this->hasCast($key, ['array', 'json', 'object', 'collection']);
}
/**
* Get the type of cast for a model attribute.
*
* @param string $key
*
* @return string
*/
protected function getCastType($key)
{
return trim(strtolower($this->getCasts()[$key]));
}
/**
* Cast an attribute to a native PHP type.
*
* @param string $key
* @param mixed $value
*
* @return mixed
*/
protected function castAttribute($key, $value)
{
if (is_null($value)) {
return $value;
}
switch ($this->getCastType($key)) {
case 'int':
case 'integer':
return (int)$value;
case 'real':
case 'float':
case 'double':
return (float)$value;
case 'string':
return (string)$value;
case 'bool':
case 'boolean':
return (bool)$value;
case 'object':
return $this->fromJson($value, true);
case 'array':
case 'json':
return $this->fromJson($value);
case 'collection':
return new BaseCollection($this->fromJson($value));
case 'date':
case 'datetime':
return $this->asDateTime($value);
case 'timestamp':
return $this->asTimeStamp($value);
default:
return $value;
}
}
/**
* Set a given attribute on the model.
*
* @param string $key
* @param mixed $value
*
* @return $this
*/
public function setAttribute($key, $value)
{
// First we will check for the presence of a mutator for the set operation
// which simply lets the developers tweak the attribute as it is set on
// the model, such as "json_encoding" an listing of data for storage.
if ($this->hasSetMutator($key)) {
$method = 'set' . Str::studly($key) . 'Attribute';
return $this->{$method}($value);
}
// If an attribute is listed as a "date", we'll convert it from a DateTime
// instance into a form proper for storage on the database tables using
// the connection grammar's date format. We will auto set the values.
elseif ($value && (in_array($key, $this->getDates()) || $this->isDateCastable($key))) {
$value = $this->fromDateTime($value);
}
if ($this->isJsonCastable($key) && ! is_null($value)) {
$value = $this->asJson($value);
}
$this->attributes[$key] = $value;
return $this;
}
/**
* Determine if a set mutator exists for an attribute.
*
* @param string $key
*
* @return bool
*/
public function hasSetMutator($key)
{
return method_exists($this, 'set' . Str::studly($key) . 'Attribute');
}
/**
* Get the attributes that should be converted to dates.
*
* @return array
*/
public function getDates()
{
$defaults = [static::CREATED_AT, static::UPDATED_AT];
return $this->timestamps ? array_merge($this->dates, $defaults) : $this->dates;
}
/**
* Convert a DateTime to a storable string.
*
* @param \DateTime|int $value
*
* @return string
*/
public function fromDateTime($value)
{
$format = $this->getDateFormat();
$value = $this->asDateTime($value);
return $value->format($format);
}
/**
* Return a timestamp as DateTime object.
*
* @param mixed $value
*
* @return \DateTime
*/
protected function asDateTime($value)
{
// If this value is already a DateTime instance, we shall just return it as is.
if ($value instanceof DateTime) {
return $value;
}
// If the value is already a DateTime instance, we will just skip the rest of
// these checks since they will be a waste of time, and hinder performance
// when checking the field. We will just return the DateTime right away.
if ($value instanceof DateTimeInterface) {
return new DateTime(
$value->format('Y-m-d H:i:s.u'), $value->getTimeZone()
);
}
// If this value is an integer, we will assume it is a UNIX timestamp's value
// and format a DateTime object from this timestamp. This allows flexibility
// when defining your date fields as they might be UNIX timestamps here.
if (is_numeric($value)) {
$dateTime = new DateTime();
$dateTime->setTimestamp($value);
return $dateTime;
}
// If the value is in simply year, month, day format, we will instantiate the
// DateTime instances from that format. Again, this provides for simple date
// fields on the database.
if (preg_match('/^(\d{4})-(\d{1,2})-(\d{1,2})$/', $value)) {
$dateTime = DateTime::createFromFormat('Y-m-d', $value);
$dateTime->setTime(0, 0, 0);
return $dateTime;
}
// Finally, we will just assume this date is in the format used by default on
// the database connection and use that format to create the DateTime object
// that is returned back out to the developers after we convert it here.
return DateTime::createFromFormat($this->getDateFormat(), $value);
}
/**
* Return a timestamp as unix timestamp.
*
* @param mixed $value
*
* @return int
*/
protected function asTimeStamp($value)
{
return $this->asDateTime($value)->getTimestamp();
}
/**
* Prepare a date for array / JSON serialization.
*
* @param \DateTime $date
*
* @return string
*/
protected function serializeDate(DateTime $date)
{
return $date->format($this->getDateFormat());
}
/**
* Set the date format used by the model.
*
* @param string $format
*
* @return $this
*/
public function setDateFormat($format)
{
$this->dateFormat = $format;
return $this;
}
/**
* Encode the given value as JSON.
*
* @param mixed $value
*
* @return string
*/
protected function asJson($value)
{
return json_encode($value);
}
/**
* Decode the given JSON back into an array or object.
*
* @param string $value
* @param bool $asObject
*
* @return mixed
*/
public function fromJson($value, $asObject = false)
{
return json_decode($value, ! $asObject);
}
/**
* Clone the model into a new, non-existing instance.
*
* @param array|null $except
*
* @return \NinjaTables\Framework\Database\Eloquent\Model
*/
public function replicate(array $except = null)
{
$defaults = [
$this->getKeyName(),
$this->getCreatedAtColumn(),
$this->getUpdatedAtColumn(),
];
$except = $except ? array_unique(array_merge($except, $defaults)) : $defaults;
$attributes = Arr::except($this->attributes, $except);
$instance = new static;
$instance->setRawAttributes($attributes);
return $instance->setRelations($this->relations);
}
/**
* Get all of the current attributes on the model.
*
* @return array
*/
public function getAttributes()
{
return $this->attributes;
}
/**
* Set the array of model attributes. No checking is done.
*
* @param array $attributes
* @param bool $sync
*
* @return $this
*/
public function setRawAttributes(array $attributes, $sync = false)
{
$this->attributes = $attributes;
if ($sync) {
$this->syncOriginal();
}
return $this;
}
/**
* Get the model's original attribute values.
*
* @param string|null $key
* @param mixed $default
*
* @return mixed|array
*/
public function getOriginal($key = null, $default = null)
{
return Arr::get($this->original, $key, $default);
}
/**
* Sync the original attributes with the current.
*
* @return $this
*/
public function syncOriginal()
{
$this->original = $this->attributes;
return $this;
}
/**
* Sync a single original attribute with its current value.
*
* @param string $attribute
*
* @return $this
*/
public function syncOriginalAttribute($attribute)
{
$this->original[$attribute] = $this->attributes[$attribute];
return $this;
}
/**
* Determine if the model or given attribute(s) have been modified.
*
* @param array|string|null $attributes
*
* @return bool
*/
public function isDirty($attributes = null)
{
$dirty = $this->getDirty();
if (is_null($attributes)) {
return count($dirty) > 0;
}
if ( ! is_array($attributes)) {
$attributes = func_get_args();
}
foreach ($attributes as $attribute) {
if (array_key_exists($attribute, $dirty)) {
return true;
}
}
return false;
}
/**
* Get the attributes that have been changed since last sync.
*
* @return array
*/
public function getDirty()
{
$dirty = [];
foreach ($this->attributes as $key => $value) {
if ( ! array_key_exists($key, $this->original)) {
$dirty[$key] = $value;
} elseif ($value !== $this->original[$key] &&
! $this->originalIsNumericallyEquivalent($key)) {
$dirty[$key] = $value;
}
}
return $dirty;
}
/**
* Determine if the new and old values for a given key are numerically equivalent.
*
* @param string $key
*
* @return bool
*/
protected function originalIsNumericallyEquivalent($key)
{
$current = $this->attributes[$key];
$original = $this->original[$key];
return is_numeric($current) && is_numeric($original) && strcmp((string)$current, (string)$original) === 0;
}
/**
* Get all the loaded relations for the instance.
*
* @return array
*/
public function getRelations()
{
return $this->relations;
}
/**
* Get a specified relationship.
*
* @param string $relation
*
* @return mixed
*/
public function getRelation($relation)
{
return $this->relations[$relation];
}
/**
* Determine if the given relation is loaded.
*
* @param string $key
*
* @return bool
*/
public function relationLoaded($key)
{
return array_key_exists($key, $this->relations);
}
/**
* Set the specific relationship in the model.
*
* @param string $relation
* @param mixed $value
*
* @return $this
*/
public function setRelation($relation, $value)
{
$this->relations[$relation] = $value;
return $this;
}
/**
* Set the entire relations array on the model.
*
* @param array $relations
*
* @return $this
*/
public function setRelations(array $relations)
{
$this->relations = $relations;
return $this;
}
/**
* Get the database connection for the model.
*
* @return \NinjaTables\Framework\Database\Connection
*/
public function getConnection()
{
return static::resolveConnection($this->getConnectionName());
}
/**
* Get the current connection name for the model.
*
* @return string
*/
public function getConnectionName()
{
return $this->connection;
}
/**
* Set the connection associated with the model.
*
* @param string $name
*
* @return $this
*/
public function setConnection($name)
{
$this->connection = $name;
return $this;
}
/**
* Resolve a connection instance.
*
* @param string|null $connection
*
* @return \NinjaTables\Framework\Database\Connection
*/
public static function resolveConnection($connection = null)
{
return static::$resolver->connection($connection);
}
/**
* Get the connection resolver instance.
*
* @return \NinjaTables\Framework\Database\ConnectionResolverInterface
*/
public static function getConnectionResolver()
{
return static::$resolver;
}
/**
* Set the connection resolver instance.
*
* @param \NinjaTables\Framework\Database\ConnectionResolverInterface $resolver
*
* @return void
*/
public static function setConnectionResolver(Resolver $resolver)
{
static::$resolver = $resolver;
}
/**
* Unset the connection resolver for models.
*
* @return void
*/
public static function unsetConnectionResolver()
{
static::$resolver = null;
}
/**
* Get the event dispatcher instance.
*
* @return \NinjaTables\Framework\Contracts\Events\Dispatcher
*/
public static function getEventDispatcher()
{
return static::$dispatcher;
}
/**
* Set the event dispatcher instance.
*
* @param \NinjaTables\Framework\Foundation\Dispatcher $dispatcher
*
* @return void
*/
public static function setEventDispatcher(Dispatcher $dispatcher)
{
static::$dispatcher = $dispatcher;
}
/**
* Unset the event dispatcher for models.
*
* @return void
*/
public static function unsetEventDispatcher()
{
static::$dispatcher = null;
}
/**
* Get the mutated attributes for a given instance.
*
* @return array
*/
public function getMutatedAttributes()
{
$class = static::class;
if ( ! isset(static::$mutatorCache[$class])) {
static::cacheMutatedAttributes($class);
}
return static::$mutatorCache[$class];
}
/**
* Extract and cache all the mutated attributes of a class.
*
* @param string $class
*
* @return void
*/
public static function cacheMutatedAttributes($class)
{
$mutatedAttributes = [];
// Here we will extract all of the mutated attributes so that we can quickly
// spin through them after we export models to their array form, which we
// need to be fast. This'll let us know the attributes that can mutate.
if (preg_match_all('/(?<=^|;)get([^;]+?)Attribute(;|$)/', implode(';', get_class_methods($class)), $matches)) {
foreach ($matches[1] as $match) {
if (static::$snakeAttributes) {
$match = Str::snake($match);
}
$mutatedAttributes[] = lcfirst($match);
}
}
static::$mutatorCache[$class] = $mutatedAttributes;
}
/**
* Dynamically retrieve attributes on the model.
*
* @param string $key
*
* @return mixed
*/
public function __get($key)
{
return $this->getAttribute($key);
}
/**
* Dynamically set attributes on the model.
*
* @param string $key
* @param mixed $value
*
* @return void
*/
public function __set($key, $value)
{
$this->setAttribute($key, $value);
}
/**
* Determine if the given attribute exists.
*
* @param mixed $offset
*
* @return bool
*/
#[\ReturnTypeWillChange]
public function offsetExists($offset)
{
return isset($this->$offset);
}
/**
* Get the value for a given offset.
*
* @param mixed $offset
*
* @return mixed
*/
#[\ReturnTypeWillChange]
public function offsetGet($offset)
{
return $this->$offset;
}
/**
* Set the value for a given offset.
*
* @param mixed $offset
* @param mixed $value
*
* @return void
*/
#[\ReturnTypeWillChange]
public function offsetSet($offset, $value)
{
$this->$offset = $value;
}
/**
* Unset the value for a given offset.
*
* @param mixed $offset
*
* @return void
*/
#[\ReturnTypeWillChange]
public function offsetUnset($offset)
{
unset($this->$offset);
}
/**
* Determine if an attribute or relation exists on the model.
*
* @param string $key
*
* @return bool
*/
public function __isset($key)
{
return ! is_null($this->getAttribute($key));
}
/**
* Unset an attribute on the model.
*
* @param string $key
*
* @return void
*/
public function __unset($key)
{
unset($this->attributes[$key], $this->relations[$key]);
}
/**
* Handle dynamic method calls into the model.
*
* @param string $method
* @param array $parameters
*
* @return mixed
*/
public function __call($method, $parameters)
{
if (in_array($method, ['increment', 'decrement'])) {
return call_user_func_array([$this, $method], $parameters);
}
$query = $this->newQuery();
return call_user_func_array([$query, $method], $parameters);
}
/**
* Handle dynamic static method calls into the method.
*
* @param string $method
* @param array $parameters
*
* @return mixed
*/
public static function __callStatic($method, $parameters)
{
$instance = new static;
return call_user_func_array([$instance, $method], $parameters);
}
/**
* Convert the model to its string representation.
*
* @return string
*/
public function __toString()
{
return $this->toJson();
}
/**
* When a model is being unserialized, check if it needs to be booted.
*
* @return void
*/
public function __wakeup()
{
$this->bootIfNotBooted();
}
}
Fatal error: Uncaught Error: Class 'NinjaTables\Framework\Database\Orm\Model' not found in /home/nimaghor/public_html/wp-content/plugins/ninja-tables/vendor/wpfluent/framework/src/WPFluent/Foundation/ComponentBinder.php:117
Stack trace:
#0 /home/nimaghor/public_html/wp-content/plugins/ninja-tables/vendor/wpfluent/framework/src/WPFluent/Foundation/ComponentBinder.php(42): NinjaTables\Framework\Foundation\ComponentBinder->bindDataBase()
#1 /home/nimaghor/public_html/wp-content/plugins/ninja-tables/vendor/wpfluent/framework/src/WPFluent/Foundation/Application.php(141): NinjaTables\Framework\Foundation\ComponentBinder->bindComponents()
#2 /home/nimaghor/public_html/wp-content/plugins/ninja-tables/vendor/wpfluent/framework/src/WPFluent/Foundation/Application.php(75): NinjaTables\Framework\Foundation\Application->bindCoreComponents()
#3 /home/nimaghor/public_html/wp-content/plugins/ninja-tables/vendor/wpfluent/framework/src/WPFluent/Foundation/Application.php(30): NinjaTables\Framework\Foundation\Application->bootstrapApplicati in /home/nimaghor/public_html/wp-content/plugins/ninja-tables/vendor/wpfluent/framework/src/WPFluent/Foundation/ComponentBinder.php on line 117