SceneTree

Inherits: MainLoop < Object

Manages the game loop via a hierarchy of nodes.

Description

As one of the most important classes, the SceneTree manages the hierarchy of nodes in a scene, as well as scenes themselves. Nodes can be added, fetched and removed. The whole scene tree (and thus the current scene) can be paused. Scenes can be loaded, switched and reloaded.

You can also use the SceneTree to organize your nodes into groups: every node can be added to as many groups as you want to create, e.g. an “enemy” group. You can then iterate these groups or even call methods and set properties on all the nodes belonging to any given group.

SceneTree is the default MainLoop implementation used by the engine, and is thus in charge of the game loop.

Tutorials

Properties

bool

auto_accept_quit

true

Node

current_scene

bool

debug_collisions_hint

false

bool

debug_navigation_hint

false

bool

debug_paths_hint

false

Node

edited_scene_root

bool

multiplayer_poll

true

bool

paused

false

bool

physics_interpolation

false

bool

quit_on_go_back

true

Window

root

Methods

void

call_group(group: StringName, method: StringName, …) vararg

void

call_group_flags(flags: int, group: StringName, method: StringName, …) vararg

Error

change_scene_to_file(path: String)

Error

change_scene_to_packed(packed_scene: PackedScene)

SceneTreeTimer

create_timer(time_sec: float, process_always: bool = true, process_in_physics: bool = false, ignore_time_scale: bool = false)

Tween

create_tween()

Node

get_first_node_in_group(group: StringName)

int

get_frame() const

MultiplayerAPI

get_multiplayer(for_path: NodePath = NodePath(“”)) const

int

get_node_count() const

int

get_node_count_in_group(group: StringName) const

Array[Node]

get_nodes_in_group(group: StringName)

Array[Tween]

get_processed_tweens()

bool

has_group(name: StringName) const

void

notify_group(group: StringName, notification: int)

void

notify_group_flags(call_flags: int, group: StringName, notification: int)

void

queue_delete(obj: Object)

void

quit(exit_code: int = 0)

Error

reload_current_scene()

void

set_group(group: StringName, property: String, value: Variant)

void

set_group_flags(call_flags: int, group: StringName, property: String, value: Variant)

void

set_multiplayer(multiplayer: MultiplayerAPI, root_path: NodePath = NodePath(“”))

void

unload_current_scene()


Signals

node_added(node: Node) 🔗

Emitted when the node enters this tree.


node_configuration_warning_changed(node: Node) 🔗

Emitted when the node‘s Node.update_configuration_warnings is called. Only emitted in the editor.


node_removed(node: Node) 🔗

Emitted when the node exits this tree.


node_renamed(node: Node) 🔗

Emitted when the node‘s Node.name is changed.


physics_frame() 🔗

Emitted immediately before Node._physics_process is called on every node in this tree.


process_frame() 🔗

Emitted immediately before Node._process is called on every node in this tree.


tree_changed() 🔗

Emitted any time the tree’s hierarchy changes (nodes being moved, renamed, etc.).


tree_process_mode_changed() 🔗

Emitted when the Node.process_mode of any node inside the tree is changed. Only emitted in the editor, to update the visibility of disabled nodes.


Enumerations

enum GroupCallFlags: 🔗

GroupCallFlags GROUP_CALL_DEFAULT = 0

Call nodes within a group with no special behavior (default).

GroupCallFlags GROUP_CALL_REVERSE = 1

Call nodes within a group in reverse tree hierarchy order (all nested children are called before their respective parent nodes).

GroupCallFlags GROUP_CALL_DEFERRED = 2

Call nodes within a group at the end of the current frame (can be either process or physics frame), similar to Object.call_deferred.

GroupCallFlags GROUP_CALL_UNIQUE = 4

Call nodes within a group only once, even if the call is executed many times in the same frame. Must be combined with GROUP_CALL_DEFERRED to work.

Note: Different arguments are not taken into account. Therefore, when the same call is executed with different arguments, only the first call will be performed.


Property Descriptions

bool auto_accept_quit = true 🔗

  • void set_auto_accept_quit(value: bool)

  • bool is_auto_accept_quit()

If true, the application automatically accepts quitting requests.

For mobile platforms, see quit_on_go_back.


Node current_scene 🔗

  • void set_current_scene(value: Node)

  • Node get_current_scene()

The root node of the currently loaded main scene, usually as a direct child of root. See also change_scene_to_file, change_scene_to_packed, and reload_current_scene.

Warning: Setting this property directly may not work as expected, as it does not add or remove any nodes from this tree.


bool debug_collisions_hint = false 🔗

  • void set_debug_collisions_hint(value: bool)

  • bool is_debugging_collisions_hint()

If true, collision shapes will be visible when running the game from the editor for debugging purposes.

Note: This property is not designed to be changed at run-time. Changing the value of debug_collisions_hint while the project is running will not have the desired effect.


bool debug_navigation_hint = false 🔗

  • void set_debug_navigation_hint(value: bool)

  • bool is_debugging_navigation_hint()

If true, navigation polygons will be visible when running the game from the editor for debugging purposes.

Note: This property is not designed to be changed at run-time. Changing the value of debug_navigation_hint while the project is running will not have the desired effect.


bool debug_paths_hint = false 🔗

  • void set_debug_paths_hint(value: bool)

  • bool is_debugging_paths_hint()

If true, curves from Path2D and Path3D nodes will be visible when running the game from the editor for debugging purposes.

Note: This property is not designed to be changed at run-time. Changing the value of debug_paths_hint while the project is running will not have the desired effect.


Node edited_scene_root 🔗

  • void set_edited_scene_root(value: Node)

  • Node get_edited_scene_root()

The root of the scene currently being edited in the editor. This is usually a direct child of root.

Note: This property does nothing in release builds.


bool multiplayer_poll = true 🔗

  • void set_multiplayer_poll_enabled(value: bool)

  • bool is_multiplayer_poll_enabled()

If true (default value), enables automatic polling of the MultiplayerAPI for this SceneTree during process_frame.

If false, you need to manually call MultiplayerAPI.poll to process network packets and deliver RPCs. This allows running RPCs in a different loop (e.g. physics, thread, specific time step) and for manual Mutex protection when accessing the MultiplayerAPI from threads.


bool paused = false 🔗

  • void set_pause(value: bool)

  • bool is_paused()

If true, the scene tree is considered paused. This causes the following behavior:


bool physics_interpolation = false 🔗

  • void set_physics_interpolation_enabled(value: bool)

  • bool is_physics_interpolation_enabled()

If true, the renderer will interpolate the transforms of physics objects between the last two transforms, so that smooth motion is seen even when physics ticks do not coincide with rendered frames.

The default value of this property is controlled by ProjectSettings.physics/common/physics_interpolation.


bool quit_on_go_back = true 🔗

  • void set_quit_on_go_back(value: bool)

  • bool is_quit_on_go_back()

If true, the application quits automatically when navigating back (e.g. using the system “Back” button on Android).

To handle ‘Go Back’ button when this option is disabled, use DisplayServer.WINDOW_EVENT_GO_BACK_REQUEST.


Window root 🔗

The tree’s root Window. This is top-most Node of the scene tree, and is always present. An absolute NodePath always starts from this node. Children of the root node may include the loaded current_scene, as well as any AutoLoad configured in the Project Settings.

Warning: Do not delete this node. This will result in unstable behavior, followed by a crash.


Method Descriptions

void call_group(group: StringName, method: StringName, …) vararg 🔗

Calls method on each node inside this tree added to the given group. You can pass arguments to method by specifying them at the end of this method call. Nodes that cannot call method (either because the method doesn’t exist or the arguments do not match) are ignored. See also set_group and notify_group.

Note: This method acts immediately on all selected nodes at once, which may cause stuttering in some performance-intensive situations.

Note: In C#, method must be in snake_case when referring to built-in Godot methods. Prefer using the names exposed in the MethodName class to avoid allocating a new StringName on each call.


void call_group_flags(flags: int, group: StringName, method: StringName, …) vararg 🔗

Calls the given method on each node inside this tree added to the given group. Use flags to customize this method’s behavior (see GroupCallFlags). Additional arguments for method can be passed at the end of this method. Nodes that cannot call method (either because the method doesn’t exist or the arguments do not match) are ignored.

  1. # Calls "hide" to all nodes of the "enemies" group, at the end of the frame and in reverse tree order.
  2. get_tree().call_group_flags(
  3. SceneTree.GROUP_CALL_DEFERRED | SceneTree.GROUP_CALL_REVERSE,
  4. "enemies", "hide")

Note: In C#, method must be in snake_case when referring to built-in Godot methods. Prefer using the names exposed in the MethodName class to avoid allocating a new StringName on each call.


Error change_scene_to_file(path: String) 🔗

Changes the running scene to the one at the given path, after loading it into a PackedScene and creating a new instance.

Returns @GlobalScope.OK on success, @GlobalScope.ERR_CANT_OPEN if the path cannot be loaded into a PackedScene, or @GlobalScope.ERR_CANT_CREATE if that scene cannot be instantiated.

Note: See change_scene_to_packed for details on the order of operations.


Error change_scene_to_packed(packed_scene: PackedScene) 🔗

Changes the running scene to a new instance of the given PackedScene (which must be valid).

Returns @GlobalScope.OK on success, @GlobalScope.ERR_CANT_CREATE if the scene cannot be instantiated, or @GlobalScope.ERR_INVALID_PARAMETER if the scene is invalid.

Note: Operations happen in the following order when change_scene_to_packed is called:

  1. The current scene node is immediately removed from the tree. From that point, Node.get_tree called on the current (outgoing) scene will return null. current_scene will be null, too, because the new scene is not available yet.

  2. At the end of the frame, the formerly current scene, already removed from the tree, will be deleted (freed from memory) and then the new scene will be instantiated and added to the tree. Node.get_tree and current_scene will be back to working as usual.

This ensures that both scenes aren’t running at the same time, while still freeing the previous scene in a safe way similar to Node.queue_free.


SceneTreeTimer create_timer(time_sec: float, process_always: bool = true, process_in_physics: bool = false, ignore_time_scale: bool = false) 🔗

Returns a new SceneTreeTimer. After time_sec in seconds have passed, the timer will emit SceneTreeTimer.timeout and will be automatically freed.

If process_always is false, the timer will be paused when setting paused to true.

If process_in_physics is true, the timer will update at the end of the physics frame, instead of the process frame.

If ignore_time_scale is true, the timer will ignore Engine.time_scale and update with the real, elapsed time.

This method is commonly used to create a one-shot delay timer, as in the following example:

GDScriptC#

  1. func some_function():
  2. print("start")
  3. await get_tree().create_timer(1.0).timeout
  4. print("end")
  1. public async Task SomeFunction()
  2. {
  3. GD.Print("start");
  4. await ToSignal(GetTree().CreateTimer(1.0f), SceneTreeTimer.SignalName.Timeout);
  5. GD.Print("end");
  6. }

Note: The timer is always updated after all of the nodes in the tree. A node’s Node._process method would be called before the timer updates (or Node._physics_process if process_in_physics is set to true).


Tween create_tween() 🔗

Creates and returns a new Tween processed in this tree. The Tween will start automatically on the next process frame or physics frame (depending on its TweenProcessMode).

Note: A Tween created using this method is not bound to any Node. It may keep working until there is nothing left to animate. If you want the Tween to be automatically killed when the Node is freed, use Node.create_tween or Tween.bind_node.


Node get_first_node_in_group(group: StringName) 🔗

Returns the first Node found inside the tree, that has been added to the given group, in scene hierarchy order. Returns null if no match is found. See also get_nodes_in_group.


int get_frame() const 🔗

Returns how many frames have been processed, since the application started. This is not a measurement of elapsed time.


MultiplayerAPI get_multiplayer(for_path: NodePath = NodePath(“”)) const 🔗

Searches for the MultiplayerAPI configured for the given path, if one does not exist it searches the parent paths until one is found. If the path is empty, or none is found, the default one is returned. See set_multiplayer.


int get_node_count() const 🔗

Returns the number of nodes inside this tree.


int get_node_count_in_group(group: StringName) const 🔗

Returns the number of nodes assigned to the given group.


Array[Node] get_nodes_in_group(group: StringName) 🔗

Returns an Array containing all nodes inside this tree, that have been added to the given group, in scene hierarchy order.


Array[Tween] get_processed_tweens() 🔗

Returns an Array of currently existing Tweens in the tree, including paused tweens.


bool has_group(name: StringName) const 🔗

Returns true if a node added to the given group name exists in the tree.


void notify_group(group: StringName, notification: int) 🔗

Calls Object.notification with the given notification to all nodes inside this tree added to the group. See also Godot notifications and call_group and set_group.

Note: This method acts immediately on all selected nodes at once, which may cause stuttering in some performance-intensive situations.


void notify_group_flags(call_flags: int, group: StringName, notification: int) 🔗

Calls Object.notification with the given notification to all nodes inside this tree added to the group. Use call_flags to customize this method’s behavior (see GroupCallFlags).


void queue_delete(obj: Object) 🔗

Queues the given obj to be deleted, calling its Object.free at the end of the current frame. This method is similar to Node.queue_free.


void quit(exit_code: int = 0) 🔗

Quits the application at the end of the current iteration, with the given exit_code.

By convention, an exit code of 0 indicates success, whereas any other exit code indicates an error. For portability reasons, it should be between 0 and 125 (inclusive).

Note: On iOS this method doesn’t work. Instead, as recommended by the iOS Human Interface Guidelines, the user is expected to close apps via the Home button.


Error reload_current_scene() 🔗

Reloads the currently active scene, replacing current_scene with a new instance of its original PackedScene.

Returns @GlobalScope.OK on success, @GlobalScope.ERR_UNCONFIGURED if no current_scene is defined, @GlobalScope.ERR_CANT_OPEN if current_scene cannot be loaded into a PackedScene, or @GlobalScope.ERR_CANT_CREATE if the scene cannot be instantiated.


void set_group(group: StringName, property: String, value: Variant) 🔗

Sets the given property to value on all nodes inside this tree added to the given group. Nodes that do not have the property are ignored. See also call_group and notify_group.

Note: This method acts immediately on all selected nodes at once, which may cause stuttering in some performance-intensive situations.

Note: In C#, property must be in snake_case when referring to built-in Godot properties. Prefer using the names exposed in the PropertyName class to avoid allocating a new StringName on each call.


void set_group_flags(call_flags: int, group: StringName, property: String, value: Variant) 🔗

Sets the given property to value on all nodes inside this tree added to the given group. Nodes that do not have the property are ignored. Use call_flags to customize this method’s behavior (see GroupCallFlags).

Note: In C#, property must be in snake_case when referring to built-in Godot properties. Prefer using the names exposed in the PropertyName class to avoid allocating a new StringName on each call.


void set_multiplayer(multiplayer: MultiplayerAPI, root_path: NodePath = NodePath(“”)) 🔗

Sets a custom MultiplayerAPI with the given root_path (controlling also the relative subpaths), or override the default one if root_path is empty.

Note: No MultiplayerAPI must be configured for the subpath containing root_path, nested custom multiplayers are not allowed. I.e. if one is configured for "/root/Foo" setting one for "/root/Foo/Bar" will cause an error.


void unload_current_scene() 🔗

If a current scene is loaded, calling this method will unload it.


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