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bremer-ios-app / Pods / Realm / include / RLMObject.h
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////////////////////////////////////////////////////////////////////////////
//
// Copyright 2014 Realm Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
////////////////////////////////////////////////////////////////////////////

#import <Realm/RLMConstants.h>
#import <Realm/RLMObjectBase.h>
#import <Realm/RLMThreadSafeReference.h>

RLM_HEADER_AUDIT_BEGIN(nullability, sendability)

@class RLMNotificationToken;
@class RLMObjectSchema;
@class RLMPropertyChange;
@class RLMPropertyDescriptor;
@class RLMRealm;
@class RLMResults<RLMObjectType>;

/**
 `RLMObject` is a base class for model objects representing data stored in Realms.

 Define your model classes by subclassing `RLMObject` and adding properties to be managed.
 Then instantiate and use your custom subclasses instead of using the `RLMObject` class directly.

     // Dog.h
     @interface Dog : RLMObject
     @property NSString *name;
     @property BOOL      adopted;
     @end

     // Dog.m
     @implementation Dog
     @end //none needed

 ### Supported property types

 - `NSString`
 - `NSInteger`, `int`, `long`, `float`, and `double`
 - `BOOL` or `bool`
 - `NSDate`
 - `NSData`
 - `NSNumber<X>`, where `X` is one of `RLMInt`, `RLMFloat`, `RLMDouble` or `RLMBool`, for optional number properties
 - `RLMObject` subclasses, to model many-to-one relationships.
 - `RLMArray<X>`, where `X` is an `RLMObject` subclass, to model many-to-many relationships.

 ### Querying

 You can initiate queries directly via the class methods: `allObjects`, `objectsWhere:`, and `objectsWithPredicate:`.
 These methods allow you to easily query a custom subclass for instances of that class in the default Realm.

 To search in a Realm other than the default Realm, use the `allObjectsInRealm:`, `objectsInRealm:where:`,
 and `objectsInRealm:withPredicate:` class methods.

 @see `RLMRealm`

 ### Relationships

 See our [Realm Swift Documentation](https://www.mongodb.com/docs/realm/sdk/swift/fundamentals/relationships/#relationships) for more details.

 ### Key-Value Observing

 All `RLMObject` properties (including properties you create in subclasses) are
 [Key-Value Observing compliant](https://developer.apple.com/library/mac/documentation/Cocoa/Conceptual/KeyValueObserving/KeyValueObserving.html),
 except for `realm` and `objectSchema`.

 Keep the following tips in mind when observing Realm objects:

 1. Unlike `NSMutableArray` properties, `RLMArray` properties do not require
    using the proxy object returned from `-mutableArrayValueForKey:`, or defining
    KVC mutation methods on the containing class. You can simply call methods on
    the `RLMArray` directly; any changes will be automatically observed by the containing
    object.
 2. Unmanaged `RLMObject` instances cannot be added to a Realm while they have any
    observed properties.
 3. Modifying managed `RLMObject`s within `-observeValueForKeyPath:ofObject:change:context:`
    is not recommended. Properties may change even when the Realm is not in a write
    transaction (for example, when `-[RLMRealm refresh]` is called after changes
    are made on a different thread), and notifications sent prior to the change
    being applied (when `NSKeyValueObservingOptionPrior` is used) may be sent at
    times when you *cannot* begin a write transaction.
 */

@interface RLMObject : RLMObjectBase <RLMThreadConfined>

#pragma mark - Creating & Initializing Objects

/**
 Creates an unmanaged instance of a Realm object.

 Call `addObject:` on an `RLMRealm` instance to add an unmanaged object into that Realm.

 @see `[RLMRealm addObject:]`
 */
- (instancetype)init NS_DESIGNATED_INITIALIZER;


/**
 Creates an unmanaged instance of a Realm object.

 Pass in an `NSArray` or `NSDictionary` instance to set the values of the object's properties.

 Call `addObject:` on an `RLMRealm` instance to add an unmanaged object into that Realm.

 @see `[RLMRealm addObject:]`
 */
- (instancetype)initWithValue:(id)value;


/**
 Returns the class name for a Realm object subclass.

 @warning Do not override. Realm relies on this method returning the exact class
          name.

 @return  The class name for the model class.
 */
+ (NSString *)className;

/**
 Creates an instance of a Realm object with a given value, and adds it to the default Realm.

 If nested objects are included in the argument, `createInDefaultRealmWithValue:` will be recursively called
 on them.

 The `value` argument can be a key-value coding compliant object, an array or dictionary returned from the methods in
 `NSJSONSerialization`, or an array containing one element for each managed property.

 An exception will be thrown if any required properties are not present and those properties
 were not defined with default values.

 If the `value` argument is an array, all properties must be present, valid and in the same
 order as the properties defined in the model.

 @param value    The value used to populate the object.

 @see   `defaultPropertyValues`
 */
+ (instancetype)createInDefaultRealmWithValue:(id)value;

/**
 Creates an instance of a Realm object with a given value, and adds it to the specified Realm.

 If nested objects are included in the argument, `createInRealm:withValue:` will be recursively called
 on them.

 The `value` argument can be a key-value coding compliant object, an array or dictionary returned from the methods in
 `NSJSONSerialization`, or an array containing one element for each managed property.

 An exception will be thrown if any required properties are not present and those properties
 were not defined with default values.

 If the `value` argument is an array, all properties must be present, valid and in the same
 order as the properties defined in the model.

 @param realm    The Realm which should manage the newly-created object.
 @param value    The value used to populate the object.

 @see   `defaultPropertyValues`
 */
+ (instancetype)createInRealm:(RLMRealm *)realm withValue:(id)value;

/**
 Creates or updates a Realm object within the default Realm.

 This method may only be called on Realm object types with a primary key defined. If there is already
 an object with the same primary key value in the default Realm, its values are updated and the object
 is returned. Otherwise, this method creates and populates a new instance of the object in the default Realm.

 If nested objects are included in the argument, `createOrUpdateInDefaultRealmWithValue:` will be
 recursively called on them if they have primary keys, `createInDefaultRealmWithValue:` if they do not.

 The `value` argument is used to populate the object. It can be a Realm object, a key-value coding
 compliant object, an array or dictionary returned from the methods in `NSJSONSerialization`, or an
 array containing one element for each managed property.

 If the object is being created, an exception will be thrown if any required properties
 are not present and those properties were not defined with default values.

 If the `value` argument is a Realm object already managed by the default Realm, the
 argument's type is the same as the receiver, and the objects have identical values for
 their managed properties, this method does nothing.

 If the object is being updated, each property defined in its schema will be set by copying from
 `value` using key-value coding. If the `value` argument does not respond to `valueForKey:` for a
 given property name (or getter name, if defined), that value will remain untouched.
 Nullable properties on the object can be set to nil by using `NSNull` as the updated value.
 Each property is set even if the existing value is the same as the new value being set, and
 notifications will report them all being changed. See `createOrUpdateModifiedInDefaultRealmWithValue:`
 for a version of this function which only sets the values which have changed.

 If the `value` argument is an array, all properties must be present, valid and in the same
 order as the properties defined in the model.

 @param value    The value used to populate the object.

 @see   `defaultPropertyValues`, `primaryKey`
 */
+ (instancetype)createOrUpdateInDefaultRealmWithValue:(id)value;

/**
 Creates or updates a Realm object within the default Realm.

 This method may only be called on Realm object types with a primary key defined. If there is already
 an object with the same primary key value in the default Realm, its values are updated and the object
 is returned. Otherwise, this method creates and populates a new instance of the object in the default Realm.

 If nested objects are included in the argument, `createOrUpdateModifiedInDefaultRealmWithValue:` will be
 recursively called on them if they have primary keys, `createInDefaultRealmWithValue:` if they do not.

 The `value` argument is used to populate the object. It can be a Realm object, a key-value coding
 compliant object, an array or dictionary returned from the methods in `NSJSONSerialization`, or an
 array containing one element for each managed property.

 If the object is being created, an exception will be thrown if any required properties
 are not present and those properties were not defined with default values.

 If the `value` argument is a Realm object already managed by the default Realm, the
 argument's type is the same as the receiver, and the objects have identical values for
 their managed properties, this method does nothing.

 If the object is being updated, each property defined in its schema will be set by copying from
 `value` using key-value coding. If the `value` argument does not respond to `valueForKey:` for a
 given property name (or getter name, if defined), that value will remain untouched.
 Nullable properties on the object can be set to nil by using `NSNull` as the updated value.
 Unlike `createOrUpdateInDefaultRealmWithValue:`, only properties which have changed in value are
 set, and any change notifications produced by this call will report only which properies have
 actually changed.

 Checking which properties have changed imposes a small amount of overhead, and so this method
 may be slower when all or nearly all of the properties being set have changed. If most or all
 of the properties being set have not changed, this method will be much faster than unconditionally
 setting all of them, and will also reduce how much data has to be written to the Realm, saving
 both i/o time and disk space.

 If the `value` argument is an array, all properties must be present, valid and in the same
 order as the properties defined in the model.

 @param value    The value used to populate the object.

 @see   `defaultPropertyValues`, `primaryKey`
 */
+ (instancetype)createOrUpdateModifiedInDefaultRealmWithValue:(id)value;

/**
 Creates or updates an Realm object within a specified Realm.

 This method may only be called on Realm object types with a primary key defined. If there is already
 an object with the same primary key value in the given Realm, its values are updated and the object
 is returned. Otherwise this method creates and populates a new instance of this object in the given Realm.

 If nested objects are included in the argument, `createOrUpdateInRealm:withValue:` will be
 recursively called on them if they have primary keys, `createInRealm:withValue:` if they do not.

 The `value` argument is used to populate the object. It can be a Realm object, a key-value coding
 compliant object, an array or dictionary returned from the methods in `NSJSONSerialization`, or an
 array containing one element for each managed property.

 If the object is being created, an exception will be thrown if any required properties
 are not present and those properties were not defined with default values.

 If the `value` argument is a Realm object already managed by the given Realm, the
 argument's type is the same as the receiver, and the objects have identical values for
 their managed properties, this method does nothing.

 If the object is being updated, each property defined in its schema will be set by copying from
 `value` using key-value coding. If the `value` argument does not respond to `valueForKey:` for a
 given property name (or getter name, if defined), that value will remain untouched.
 Nullable properties on the object can be set to nil by using `NSNull` as the updated value.
 Each property is set even if the existing value is the same as the new value being set, and
 notifications will report them all being changed. See `createOrUpdateModifiedInRealm:withValue:`
 for a version of this function which only sets the values which have changed.

 If the `value` argument is an array, all properties must be present, valid and in the same
 order as the properties defined in the model.

 @param realm    The Realm which should own the object.
 @param value    The value used to populate the object.

 @see   `defaultPropertyValues`, `primaryKey`
 */
+ (instancetype)createOrUpdateInRealm:(RLMRealm *)realm withValue:(id)value;

/**
 Creates or updates an Realm object within a specified Realm.

 This method may only be called on Realm object types with a primary key defined. If there is already
 an object with the same primary key value in the given Realm, its values are updated and the object
 is returned. Otherwise this method creates and populates a new instance of this object in the given Realm.

 If nested objects are included in the argument, `createOrUpdateInRealm:withValue:` will be
 recursively called on them if they have primary keys, `createInRealm:withValue:` if they do not.

 The `value` argument is used to populate the object. It can be a Realm object, a key-value coding
 compliant object, an array or dictionary returned from the methods in `NSJSONSerialization`, or an
 array containing one element for each managed property.

 If the object is being created, an exception will be thrown if any required properties
 are not present and those properties were not defined with default values.

 If the `value` argument is a Realm object already managed by the given Realm, the
 argument's type is the same as the receiver, and the objects have identical values for
 their managed properties, this method does nothing.

 If the object is being updated, each property defined in its schema will be set by copying from
 `value` using key-value coding. If the `value` argument does not respond to `valueForKey:` for a
 given property name (or getter name, if defined), that value will remain untouched.
 Nullable properties on the object can be set to nil by using `NSNull` as the updated value.
 Unlike `createOrUpdateInRealm:withValue:`, only properties which have changed in value are
 set, and any change notifications produced by this call will report only which properies have
 actually changed.

 Checking which properties have changed imposes a small amount of overhead, and so this method
 may be slower when all or nearly all of the properties being set have changed. If most or all
 of the properties being set have not changed, this method will be much faster than unconditionally
 setting all of them, and will also reduce how much data has to be written to the Realm, saving
 both i/o time and disk space.

 If the `value` argument is an array, all properties must be present, valid and in the same
 order as the properties defined in the model.

 @param realm    The Realm which should own the object.
 @param value    The value used to populate the object.

 @see   `defaultPropertyValues`, `primaryKey`
 */
+ (instancetype)createOrUpdateModifiedInRealm:(RLMRealm *)realm withValue:(id)value;

#pragma mark - Properties

/**
 The Realm which manages the object, or `nil` if the object is unmanaged.
 */
@property (nonatomic, readonly, nullable) RLMRealm *realm;

/**
 The object schema which lists the managed properties for the object.
 */
@property (nonatomic, readonly) RLMObjectSchema *objectSchema;

/**
 Indicates if the object can no longer be accessed because it is now invalid.

 An object can no longer be accessed if the object has been deleted from the Realm that manages it, or
 if `invalidate` is called on that Realm.
 */
@property (nonatomic, readonly, getter = isInvalidated) BOOL invalidated;

/**
 Indicates if this object is frozen.

 @see `-[RLMObject freeze]`
 */
@property (nonatomic, readonly, getter = isFrozen) BOOL frozen;


#pragma mark - Customizing your Objects

/**
 Returns an array of property names for properties which should be indexed.

 Only string, integer, boolean, and `NSDate` properties are supported.

 @return    An array of property names.
 */
+ (NSArray<NSString *> *)indexedProperties;

/**
 Override this method to specify the default values to be used for each property.

 @return    A dictionary mapping property names to their default values.
 */
+ (nullable NSDictionary *)defaultPropertyValues;

/**
 Override this method to specify the name of a property to be used as the primary key.

 Only properties of types `RLMPropertyTypeString` and `RLMPropertyTypeInt` can be designated as the primary key.
 Primary key properties enforce uniqueness for each value whenever the property is set, which incurs minor overhead.
 Indexes are created automatically for primary key properties.

 @return    The name of the property designated as the primary key.
 */
+ (nullable NSString *)primaryKey;

/**
 Override this method to specify the names of properties to ignore. These properties will not be managed by the Realm
 that manages the object.

 @return    An array of property names to ignore.
 */
+ (nullable NSArray<NSString *> *)ignoredProperties;

/**
 Override this method to specify the names of properties that are non-optional (i.e. cannot be assigned a `nil` value).

 By default, all properties of a type whose values can be set to `nil` are considered optional properties.
 To require that an object in a Realm always store a non-`nil` value for a property,
 add the name of the property to the array returned from this method.

 Properties of `RLMObject` type cannot be non-optional. Array and `NSNumber` properties
 can be non-optional, but there is no reason to do so: arrays do not support storing nil, and
 if you want a non-optional number you should instead use the primitive type.

 @return    An array of property names that are required.
 */
+ (NSArray<NSString *> *)requiredProperties;

/**
 Override this method to provide information related to properties containing linking objects.

 Each property of type `RLMLinkingObjects` must have a key in the dictionary returned by this method consisting
 of the property name. The corresponding value must be an instance of `RLMPropertyDescriptor` that describes the class
 and property that the property is linked to.

     return @{ @"owners": [RLMPropertyDescriptor descriptorWithClass:Owner.class propertyName:@"dogs"] };

 @return     A dictionary mapping property names to `RLMPropertyDescriptor` instances.
 */
+ (NSDictionary<NSString *, RLMPropertyDescriptor *> *)linkingObjectsProperties;

#pragma mark - Getting & Querying Objects from the Default Realm

/**
 Returns all objects of this object type from the default Realm.

 @return    An `RLMResults` containing all objects of this type in the default Realm.
 */
+ (RLMResults *)allObjects;

/**
 Returns all objects of this object type matching the given predicate from the default Realm.

 @param predicateFormat A predicate format string, optionally followed by a variable number of arguments.

 @return    An `RLMResults` containing all objects of this type in the default Realm that match the given predicate.
 */
+ (RLMResults *)objectsWhere:(NSString *)predicateFormat, ...;

/// :nodoc:
+ (RLMResults<__kindof RLMObject *> *)objectsWhere:(NSString *)predicateFormat args:(va_list)args;


/**
 Returns all objects of this object type matching the given predicate from the default Realm.

 @param predicate   The predicate with which to filter the objects.

 @return    An `RLMResults` containing all objects of this type in the default Realm that match the given predicate.
 */
+ (RLMResults *)objectsWithPredicate:(nullable NSPredicate *)predicate;

/**
 Retrieves the single instance of this object type with the given primary key from the default Realm.

 Returns the object from the default Realm which has the given primary key, or
 `nil` if the object does not exist. This is slightly faster than the otherwise
 equivalent `[[SubclassName objectsWhere:@"primaryKeyPropertyName = %@", key] firstObject]`.

 This method requires that `primaryKey` be overridden on the receiving subclass.

 @return    An object of this object type, or `nil` if an object with the given primary key does not exist.
 @see       `-primaryKey`
 */
+ (nullable instancetype)objectForPrimaryKey:(nullable id)primaryKey NS_SWIFT_NAME(object(forPrimaryKey:));


#pragma mark - Querying Specific Realms

/**
 Returns all objects of this object type from the specified Realm.

 @param realm   The Realm to query.

 @return        An `RLMResults` containing all objects of this type in the specified Realm.
 */
+ (RLMResults *)allObjectsInRealm:(RLMRealm *)realm;

/**
 Returns all objects of this object type matching the given predicate from the specified Realm.

 @param predicateFormat A predicate format string, optionally followed by a variable number of arguments.
 @param realm           The Realm to query.

 @return    An `RLMResults` containing all objects of this type in the specified Realm that match the given predicate.
 */
+ (RLMResults *)objectsInRealm:(RLMRealm *)realm where:(NSString *)predicateFormat, ...;

/// :nodoc:
+ (RLMResults<__kindof RLMObject *> *)objectsInRealm:(RLMRealm *)realm where:(NSString *)predicateFormat args:(va_list)args;

/**
 Returns all objects of this object type matching the given predicate from the specified Realm.

 @param predicate   A predicate to use to filter the elements.
 @param realm       The Realm to query.

 @return    An `RLMResults` containing all objects of this type in the specified Realm that match the given predicate.
 */
+ (RLMResults *)objectsInRealm:(RLMRealm *)realm withPredicate:(nullable NSPredicate *)predicate;

/**
 Retrieves the single instance of this object type with the given primary key from the specified Realm.

 Returns the object from the specified Realm which has the given primary key, or
 `nil` if the object does not exist. This is slightly faster than the otherwise
 equivalent `[[SubclassName objectsInRealm:realm where:@"primaryKeyPropertyName = %@", key] firstObject]`.

 This method requires that `primaryKey` be overridden on the receiving subclass.

 @return    An object of this object type, or `nil` if an object with the given primary key does not exist.
 @see       `-primaryKey`
 */
+ (nullable instancetype)objectInRealm:(RLMRealm *)realm forPrimaryKey:(nullable id)primaryKey NS_SWIFT_NAME(object(in:forPrimaryKey:));

#pragma mark - Notifications

/**
 A callback block for `RLMObject` notifications.

 If the object is deleted from the managing Realm, the block is called with
 `deleted` set to `YES` and the other two arguments are `nil`. The block will
 never be called again after this.

 If the object is modified, the block will be called with `deleted` set to
 `NO`, a `nil` error, and an array of `RLMPropertyChange` objects which
 indicate which properties of the objects were modified.

 `error` is always `nil` and will be removed in a future version.
 */
typedef void (^RLMObjectChangeBlock)(BOOL deleted,
                                     NSArray<RLMPropertyChange *> *_Nullable changes,
                                     NSError *_Nullable error);

/**
 Registers a block to be called each time the object changes.

 The block will be asynchronously called after each write transaction which
 deletes the object or modifies any of the managed properties of the object,
 including self-assignments that set a property to its existing value.

 For write transactions performed on different threads or in different
 processes, the block will be called when the managing Realm is
 (auto)refreshed to a version including the changes, while for local write
 transactions it will be called at some point in the future after the write
 transaction is committed.

 Notifications are delivered via the standard run loop, and so can't be
 delivered while the run loop is blocked by other activity. When notifications
 can't be delivered instantly, multiple notifications may be coalesced into a
 single notification.

 Unlike with `RLMArray` and `RLMResults`, there is no "initial" callback made
 after you add a new notification block.

 Only objects which are managed by a Realm can be observed in this way. You
 must retain the returned token for as long as you want updates to be sent to
 the block. To stop receiving updates, call `-invalidate` on the token.

 It is safe to capture a strong reference to the observed object within the
 callback block. There is no retain cycle due to that the callback is retained
 by the returned token and not by the object itself.

 @warning This method cannot be called during a write transaction, when the
          containing Realm is read-only, or on an unmanaged object.

 @param block The block to be called whenever a change occurs.
 @return A token which must be held for as long as you want updates to be delivered.
 */
- (RLMNotificationToken *)addNotificationBlock:(RLMObjectChangeBlock)block;

/**
 Registers a block to be called each time the object changes.

 The block will be asynchronously called after each write transaction which
 deletes the object or modifies any of the managed properties of the object,
 including self-assignments that set a property to its existing value.

 For write transactions performed on different threads or in different
 processes, the block will be called when the managing Realm is
 (auto)refreshed to a version including the changes, while for local write
 transactions it will be called at some point in the future after the write
 transaction is committed.

 Notifications are delivered on the given queue. If the queue is blocked and
 notifications can't be delivered instantly, multiple notifications may be
 coalesced into a single notification.

 Unlike with `RLMArray` and `RLMResults`, there is no "initial" callback made
 after you add a new notification block.

 Only objects which are managed by a Realm can be observed in this way. You
 must retain the returned token for as long as you want updates to be sent to
 the block. To stop receiving updates, call `-invalidate` on the token.

 It is safe to capture a strong reference to the observed object within the
 callback block. There is no retain cycle due to that the callback is retained
 by the returned token and not by the object itself.

 @warning This method cannot be called during a write transaction, when the
          containing Realm is read-only, or on an unmanaged object.
 @warning The queue must be a serial queue.

 @param block The block to be called whenever a change occurs.
 @param queue The serial queue to deliver notifications to.
 @return A token which must be held for as long as you want updates to be delivered.
 */
- (RLMNotificationToken *)addNotificationBlock:(RLMObjectChangeBlock)block queue:(dispatch_queue_t)queue;

/**
 Registers a block to be called each time the object changes.

 The block will be asynchronously called after each write transaction which
 deletes the object or modifies any of the managed properties of the object,
 including self-assignments that set a property to its existing value.

 For write transactions performed on different threads or in different
 processes, the block will be called when the managing Realm is
 (auto)refreshed to a version including the changes, while for local write
 transactions it will be called at some point in the future after the write
 transaction is committed.

 Notifications are delivered on the given queue. If the queue is blocked and
 notifications can't be delivered instantly, multiple notifications may be
 coalesced into a single notification.

 Unlike with `RLMArray` and `RLMResults`, there is no "initial" callback made
 after you add a new notification block.

 Only objects which are managed by a Realm can be observed in this way. You
 must retain the returned token for as long as you want updates to be sent to
 the block. To stop receiving updates, call `-invalidate` on the token.

 It is safe to capture a strong reference to the observed object within the
 callback block. There is no retain cycle due to that the callback is retained
 by the returned token and not by the object itself.

 @warning This method cannot be called during a write transaction, when the
          containing Realm is read-only, or on an unmanaged object.
 @warning The queue must be a serial queue.

 @param block The block to be called whenever a change occurs.
 @param keyPaths The block will be called for changes occurring on these keypaths. If no
 key paths are given, notifications are delivered for every property key path.
 @param queue The serial queue to deliver notifications to.
 @return A token which must be held for as long as you want updates to be delivered.
 */
- (RLMNotificationToken *)addNotificationBlock:(RLMObjectChangeBlock)block keyPaths:(NSArray<NSString *> *)keyPaths queue:(dispatch_queue_t)queue;

/**
 Registers a block to be called each time the object changes.

 The block will be asynchronously called after each write transaction which
 deletes the object or modifies any of the managed properties of the object,
 including self-assignments that set a property to its existing value.

 For write transactions performed on different threads or in different
 processes, the block will be called when the managing Realm is
 (auto)refreshed to a version including the changes, while for local write
 transactions it will be called at some point in the future after the write
 transaction is committed.

 Notifications are delivered on the given queue. If the queue is blocked and
 notifications can't be delivered instantly, multiple notifications may be
 coalesced into a single notification.

 Unlike with `RLMArray` and `RLMResults`, there is no "initial" callback made
 after you add a new notification block.

 Only objects which are managed by a Realm can be observed in this way. You
 must retain the returned token for as long as you want updates to be sent to
 the block. To stop receiving updates, call `-invalidate` on the token.

 It is safe to capture a strong reference to the observed object within the
 callback block. There is no retain cycle due to that the callback is retained
 by the returned token and not by the object itself.

 @warning This method cannot be called during a write transaction, when the
          containing Realm is read-only, or on an unmanaged object.
 @warning The queue must be a serial queue.

 @param block The block to be called whenever a change occurs.
 @param keyPaths The block will be called for changes occurring on these keypaths. If no
 key paths are given, notifications are delivered for every property key path.
 @return A token which must be held for as long as you want updates to be delivered.
 */
- (RLMNotificationToken *)addNotificationBlock:(RLMObjectChangeBlock)block keyPaths:(NSArray<NSString *> *)keyPaths;


#pragma mark - Other Instance Methods

/**
 Returns YES if another Realm object instance points to the same object as the receiver in the Realm managing
 the receiver.

 For frozen objects and object types with a primary key, `isEqual:` is
 overridden to use the same logic as this method (along with a corresponding
 implementation for `hash`). Non-frozen objects without primary keys use
 pointer identity for `isEqual:` and `hash`.

 @param object  The object to compare the receiver to.

 @return    Whether the object represents the same object as the receiver.
 */
- (BOOL)isEqualToObject:(RLMObject *)object;

/**
 Returns a frozen (immutable) snapshot of this object.

 The frozen copy is an immutable object which contains the same data as this
 object currently contains, but will not update when writes are made to the
 containing Realm. Unlike live objects, frozen objects can be accessed from any
 thread.

 - warning: Holding onto a frozen object for an extended period while performing write
 transaction on the Realm may result in the Realm file growing to large sizes. See
 `Realm.Configuration.maximumNumberOfActiveVersions` for more information.
 - warning: This method can only be called on a managed object.
 */
- (instancetype)freeze NS_RETURNS_RETAINED;

/**
 Returns a live (mutable) reference of this object.

 This method creates a managed accessor to a live copy of the same frozen object.
 Will return self if called on an already live object.
 */
- (instancetype)thaw;

#pragma mark - Dynamic Accessors

/// :nodoc:
- (nullable id)objectForKeyedSubscript:(NSString *)key;

/// :nodoc:
- (void)setObject:(nullable id)obj forKeyedSubscript:(NSString *)key;

@end

/**
 Information about a specific property which changed in an `RLMObject` change notification.
 */
@interface RLMPropertyChange : NSObject

/**
 The name of the property which changed.
 */
@property (nonatomic, readonly, strong) NSString *name;

/**
 The value of the property before the change occurred. This will always be `nil`
 if the change happened on the same thread as the notification and for `RLMArray`
 properties.

 For object properties this will give the object which was previously linked to,
 but that object will have its new values and not the values it had before the
 changes. This means that `previousValue` may be a deleted object, and you will
 need to check `invalidated` before accessing any of its properties.
 */
@property (nonatomic, readonly, strong, nullable) id previousValue;

/**
 The value of the property after the change occurred. This will always be `nil`
 for `RLMArray` properties.
 */
@property (nonatomic, readonly, strong, nullable) id value;
@end

#pragma mark - RLMArray Property Declaration

/**
 Properties on `RLMObject`s of type `RLMArray` must have an associated type. A type is associated
 with an `RLMArray` property by defining a protocol for the object type that the array should contain.
 To define the protocol for an object, you can use the macro RLM_ARRAY_TYPE:

     RLM_ARRAY_TYPE(ObjectType)
     ...
     @property RLMArray<ObjectType *><ObjectType> *arrayOfObjectTypes;
  */
#define RLM_ARRAY_TYPE(RLM_OBJECT_SUBCLASS)\
__attribute__((deprecated("RLM_ARRAY_TYPE has been deprecated. Use RLM_COLLECTION_TYPE instead."))) \
@protocol RLM_OBJECT_SUBCLASS <NSObject>  \
@end

/**
 Properties on `RLMObject`s of type `RLMSet`  /  `RLMArray` must have an associated type. A type is associated
 with an `RLMSet`  /  `RLMArray` property by defining a protocol for the object type that the array should contain.
 To define the protocol for an object, you can use the macro RLM_COLLECTION_TYPE:

     RLM_COLLECTION_TYPE(ObjectType)
     ...
     @property RLMSet<ObjectType *><ObjectType> *setOfObjectTypes;
     @property RLMArray<ObjectType *><ObjectType> *arrayOfObjectTypes;
  */
#define RLM_COLLECTION_TYPE(RLM_OBJECT_SUBCLASS)\
@protocol RLM_OBJECT_SUBCLASS <NSObject>   \
@end

RLM_HEADER_AUDIT_END(nullability, sendability)