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AnimationΒΆ

Inherits: Resource < RefCounted < Object

Holds data that can be used to animate anything in the engine.

DescriptionΒΆ

This resource holds data that can be used to animate anything in the engine. Animations are divided into tracks and each track must be linked to a node. The state of that node can be changed through time, by adding timed keys (events) to the track.

# This creates an animation that makes the node "Enemy" move to the right by
# 100 pixels in 2.0 seconds.
var animation = Animation.new()
var track_index = animation.add_track(Animation.TYPE_VALUE)
animation.track_set_path(track_index, "Enemy:position:x")
animation.track_insert_key(track_index, 0.0, 0)
animation.track_insert_key(track_index, 2.0, 100)
animation.length = 2.0

Animations are just data containers, and must be added to nodes such as an AnimationPlayer to be played back. Animation tracks have different types, each with its own set of dedicated methods. Check TrackType to see available types.

Note: For 3D position/rotation/scale, using the dedicated TYPE_POSITION_3D, TYPE_ROTATION_3D and TYPE_SCALE_3D track types instead of TYPE_VALUE is recommended for performance reasons.

TutorialsΒΆ

PropertiesΒΆ

bool

capture_included

false

float

length

1.0

LoopMode

loop_mode

0

float

step

0.0333333

MethodsΒΆ

int

add_track(type: TrackType, at_position: int = -1)

StringName

animation_track_get_key_animation(track_idx: int, key_idx: int) const

int

animation_track_insert_key(track_idx: int, time: float, animation: StringName)

void

animation_track_set_key_animation(track_idx: int, key_idx: int, animation: StringName)

float

audio_track_get_key_end_offset(track_idx: int, key_idx: int) const

float

audio_track_get_key_start_offset(track_idx: int, key_idx: int) const

Resource

audio_track_get_key_stream(track_idx: int, key_idx: int) const

int

audio_track_insert_key(track_idx: int, time: float, stream: Resource, start_offset: float = 0, end_offset: float = 0)

bool

audio_track_is_use_blend(track_idx: int) const

void

audio_track_set_key_end_offset(track_idx: int, key_idx: int, offset: float)

void

audio_track_set_key_start_offset(track_idx: int, key_idx: int, offset: float)

void

audio_track_set_key_stream(track_idx: int, key_idx: int, stream: Resource)

void

audio_track_set_use_blend(track_idx: int, enable: bool)

Vector2

bezier_track_get_key_in_handle(track_idx: int, key_idx: int) const

Vector2

bezier_track_get_key_out_handle(track_idx: int, key_idx: int) const

float

bezier_track_get_key_value(track_idx: int, key_idx: int) const

int

bezier_track_insert_key(track_idx: int, time: float, value: float, in_handle: Vector2 = Vector2(0, 0), out_handle: Vector2 = Vector2(0, 0))

float

bezier_track_interpolate(track_idx: int, time: float) const

void

bezier_track_set_key_in_handle(track_idx: int, key_idx: int, in_handle: Vector2, balanced_value_time_ratio: float = 1.0)

void

bezier_track_set_key_out_handle(track_idx: int, key_idx: int, out_handle: Vector2, balanced_value_time_ratio: float = 1.0)

void

bezier_track_set_key_value(track_idx: int, key_idx: int, value: float)

int

blend_shape_track_insert_key(track_idx: int, time: float, amount: float)

float

blend_shape_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const

void

clear()

void

compress(page_size: int = 8192, fps: int = 120, split_tolerance: float = 4.0)

void

copy_track(track_idx: int, to_animation: Animation)

int

find_track(path: NodePath, type: TrackType) const

int

get_track_count() const

StringName

method_track_get_name(track_idx: int, key_idx: int) const

Array

method_track_get_params(track_idx: int, key_idx: int) const

int

position_track_insert_key(track_idx: int, time: float, position: Vector3)

Vector3

position_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const

void

remove_track(track_idx: int)

int

rotation_track_insert_key(track_idx: int, time: float, rotation: Quaternion)

Quaternion

rotation_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const

int

scale_track_insert_key(track_idx: int, time: float, scale: Vector3)

Vector3

scale_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const

int

track_find_key(track_idx: int, time: float, find_mode: FindMode = 0, limit: bool = false, backward: bool = false) const

bool

track_get_interpolation_loop_wrap(track_idx: int) const

InterpolationType

track_get_interpolation_type(track_idx: int) const

int

track_get_key_count(track_idx: int) const

float

track_get_key_time(track_idx: int, key_idx: int) const

float

track_get_key_transition(track_idx: int, key_idx: int) const

Variant

track_get_key_value(track_idx: int, key_idx: int) const

NodePath

track_get_path(track_idx: int) const

TrackType

track_get_type(track_idx: int) const

int

track_insert_key(track_idx: int, time: float, key: Variant, transition: float = 1)

bool

track_is_compressed(track_idx: int) const

bool

track_is_enabled(track_idx: int) const

bool

track_is_imported(track_idx: int) const

void

track_move_down(track_idx: int)

void

track_move_to(track_idx: int, to_idx: int)

void

track_move_up(track_idx: int)

void

track_remove_key(track_idx: int, key_idx: int)

void

track_remove_key_at_time(track_idx: int, time: float)

void

track_set_enabled(track_idx: int, enabled: bool)

void

track_set_imported(track_idx: int, imported: bool)

void

track_set_interpolation_loop_wrap(track_idx: int, interpolation: bool)

void

track_set_interpolation_type(track_idx: int, interpolation: InterpolationType)

void

track_set_key_time(track_idx: int, key_idx: int, time: float)

void

track_set_key_transition(track_idx: int, key_idx: int, transition: float)

void

track_set_key_value(track_idx: int, key: int, value: Variant)

void

track_set_path(track_idx: int, path: NodePath)

void

track_swap(track_idx: int, with_idx: int)

UpdateMode

value_track_get_update_mode(track_idx: int) const

Variant

value_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const

void

value_track_set_update_mode(track_idx: int, mode: UpdateMode)


EnumerationsΒΆ

enum TrackType: πŸ”—

TrackType TYPE_VALUE = 0

Value tracks set values in node properties, but only those which can be interpolated. For 3D position/rotation/scale, using the dedicated TYPE_POSITION_3D, TYPE_ROTATION_3D and TYPE_SCALE_3D track types instead of TYPE_VALUE is recommended for performance reasons.

TrackType TYPE_POSITION_3D = 1

3D position track (values are stored in Vector3s).

TrackType TYPE_ROTATION_3D = 2

3D rotation track (values are stored in Quaternions).

TrackType TYPE_SCALE_3D = 3

3D scale track (values are stored in Vector3s).

TrackType TYPE_BLEND_SHAPE = 4

Blend shape track.

TrackType TYPE_METHOD = 5

Method tracks call functions with given arguments per key.

TrackType TYPE_BEZIER = 6

Bezier tracks are used to interpolate a value using custom curves. They can also be used to animate sub-properties of vectors and colors (e.g. alpha value of a Color).

TrackType TYPE_AUDIO = 7

Audio tracks are used to play an audio stream with either type of AudioStreamPlayer. The stream can be trimmed and previewed in the animation.

TrackType TYPE_ANIMATION = 8

Animation tracks play animations in other AnimationPlayer nodes.


enum InterpolationType: πŸ”—

InterpolationType INTERPOLATION_NEAREST = 0

No interpolation (nearest value).

InterpolationType INTERPOLATION_LINEAR = 1

Linear interpolation.

InterpolationType INTERPOLATION_CUBIC = 2

Cubic interpolation. This looks smoother than linear interpolation, but is more expensive to interpolate. Stick to INTERPOLATION_LINEAR for complex 3D animations imported from external software, even if it requires using a higher animation framerate in return.

InterpolationType INTERPOLATION_LINEAR_ANGLE = 3

Linear interpolation with shortest path rotation.

Note: The result value is always normalized and may not match the key value.

InterpolationType INTERPOLATION_CUBIC_ANGLE = 4

Cubic interpolation with shortest path rotation.

Note: The result value is always normalized and may not match the key value.


enum UpdateMode: πŸ”—

UpdateMode UPDATE_CONTINUOUS = 0

Update between keyframes and hold the value.

UpdateMode UPDATE_DISCRETE = 1

Update at the keyframes.

UpdateMode UPDATE_CAPTURE = 2

Same as UPDATE_CONTINUOUS but works as a flag to capture the value of the current object and perform interpolation in some methods. See also AnimationMixer.capture, AnimationPlayer.playback_auto_capture, and AnimationPlayer.play_with_capture.


enum LoopMode: πŸ”—

LoopMode LOOP_NONE = 0

At both ends of the animation, the animation will stop playing.

LoopMode LOOP_LINEAR = 1

At both ends of the animation, the animation will be repeated without changing the playback direction.

LoopMode LOOP_PINGPONG = 2

Repeats playback and reverse playback at both ends of the animation.


enum LoopedFlag: πŸ”—

LoopedFlag LOOPED_FLAG_NONE = 0

This flag indicates that the animation proceeds without any looping.

LoopedFlag LOOPED_FLAG_END = 1

This flag indicates that the animation has reached the end of the animation and just after loop processed.

LoopedFlag LOOPED_FLAG_START = 2

This flag indicates that the animation has reached the start of the animation and just after loop processed.


enum FindMode: πŸ”—

FindMode FIND_MODE_NEAREST = 0

Finds the nearest time key.

FindMode FIND_MODE_APPROX = 1

Finds only the key with approximating the time.

FindMode FIND_MODE_EXACT = 2

Finds only the key with matching the time.


Property DescriptionsΒΆ

bool capture_included = false πŸ”—

  • bool is_capture_included()

Returns true if the capture track is included. This is a cached readonly value for performance.


float length = 1.0 πŸ”—

  • void set_length(value: float)

  • float get_length()

The total length of the animation (in seconds).

Note: Length is not delimited by the last key, as this one may be before or after the end to ensure correct interpolation and looping.


LoopMode loop_mode = 0 πŸ”—

Determines the behavior of both ends of the animation timeline during animation playback. This is used for correct interpolation of animation cycles, and for hinting the player that it must restart the animation.


float step = 0.0333333 πŸ”—

The animation step value.


Method DescriptionsΒΆ

int add_track(type: TrackType, at_position: int = -1) πŸ”—

Adds a track to the Animation.


StringName animation_track_get_key_animation(track_idx: int, key_idx: int) const πŸ”—

Returns the animation name at the key identified by key_idx. The track_idx must be the index of an Animation Track.


int animation_track_insert_key(track_idx: int, time: float, animation: StringName) πŸ”—

Inserts a key with value animation at the given time (in seconds). The track_idx must be the index of an Animation Track.


void animation_track_set_key_animation(track_idx: int, key_idx: int, animation: StringName) πŸ”—

Sets the key identified by key_idx to value animation. The track_idx must be the index of an Animation Track.


float audio_track_get_key_end_offset(track_idx: int, key_idx: int) const πŸ”—

Returns the end offset of the key identified by key_idx. The track_idx must be the index of an Audio Track.

End offset is the number of seconds cut off at the ending of the audio stream.


float audio_track_get_key_start_offset(track_idx: int, key_idx: int) const πŸ”—

Returns the start offset of the key identified by key_idx. The track_idx must be the index of an Audio Track.

Start offset is the number of seconds cut off at the beginning of the audio stream.


Resource audio_track_get_key_stream(track_idx: int, key_idx: int) const πŸ”—

Returns the audio stream of the key identified by key_idx. The track_idx must be the index of an Audio Track.


int audio_track_insert_key(track_idx: int, time: float, stream: Resource, start_offset: float = 0, end_offset: float = 0) πŸ”—

Inserts an Audio Track key at the given time in seconds. The track_idx must be the index of an Audio Track.

stream is the AudioStream resource to play. start_offset is the number of seconds cut off at the beginning of the audio stream, while end_offset is at the ending.


bool audio_track_is_use_blend(track_idx: int) const πŸ”—

Returns true if the track at track_idx will be blended with other animations.


void audio_track_set_key_end_offset(track_idx: int, key_idx: int, offset: float) πŸ”—

Sets the end offset of the key identified by key_idx to value offset. The track_idx must be the index of an Audio Track.


void audio_track_set_key_start_offset(track_idx: int, key_idx: int, offset: float) πŸ”—

Sets the start offset of the key identified by key_idx to value offset. The track_idx must be the index of an Audio Track.


void audio_track_set_key_stream(track_idx: int, key_idx: int, stream: Resource) πŸ”—

Sets the stream of the key identified by key_idx to value stream. The track_idx must be the index of an Audio Track.


void audio_track_set_use_blend(track_idx: int, enable: bool) πŸ”—

Sets whether the track will be blended with other animations. If true, the audio playback volume changes depending on the blend value.


Vector2 bezier_track_get_key_in_handle(track_idx: int, key_idx: int) const πŸ”—

Returns the in handle of the key identified by key_idx. The track_idx must be the index of a Bezier Track.


Vector2 bezier_track_get_key_out_handle(track_idx: int, key_idx: int) const πŸ”—

Returns the out handle of the key identified by key_idx. The track_idx must be the index of a Bezier Track.


float bezier_track_get_key_value(track_idx: int, key_idx: int) const πŸ”—

Returns the value of the key identified by key_idx. The track_idx must be the index of a Bezier Track.


int bezier_track_insert_key(track_idx: int, time: float, value: float, in_handle: Vector2 = Vector2(0, 0), out_handle: Vector2 = Vector2(0, 0)) πŸ”—

Inserts a Bezier Track key at the given time in seconds. The track_idx must be the index of a Bezier Track.

in_handle is the left-side weight of the added Bezier curve point, out_handle is the right-side one, while value is the actual value at this point.


float bezier_track_interpolate(track_idx: int, time: float) const πŸ”—

Returns the interpolated value at the given time (in seconds). The track_idx must be the index of a Bezier Track.


void bezier_track_set_key_in_handle(track_idx: int, key_idx: int, in_handle: Vector2, balanced_value_time_ratio: float = 1.0) πŸ”—

Sets the in handle of the key identified by key_idx to value in_handle. The track_idx must be the index of a Bezier Track.


void bezier_track_set_key_out_handle(track_idx: int, key_idx: int, out_handle: Vector2, balanced_value_time_ratio: float = 1.0) πŸ”—

Sets the out handle of the key identified by key_idx to value out_handle. The track_idx must be the index of a Bezier Track.


void bezier_track_set_key_value(track_idx: int, key_idx: int, value: float) πŸ”—

Sets the value of the key identified by key_idx to the given value. The track_idx must be the index of a Bezier Track.


int blend_shape_track_insert_key(track_idx: int, time: float, amount: float) πŸ”—

Inserts a key in a given blend shape track. Returns the key index.


float blend_shape_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const πŸ”—

Returns the interpolated blend shape value at the given time (in seconds). The track_idx must be the index of a blend shape track.


void clear() πŸ”—

Clear the animation (clear all tracks and reset all).


void compress(page_size: int = 8192, fps: int = 120, split_tolerance: float = 4.0) πŸ”—

Compress the animation and all its tracks in-place. This will make track_is_compressed return true once called on this Animation. Compressed tracks require less memory to be played, and are designed to be used for complex 3D animations (such as cutscenes) imported from external 3D software. Compression is lossy, but the difference is usually not noticeable in real world conditions.

Note: Compressed tracks have various limitations (such as not being editable from the editor), so only use compressed animations if you actually need them.


void copy_track(track_idx: int, to_animation: Animation) πŸ”—

Adds a new track to to_animation that is a copy of the given track from this animation.


int find_track(path: NodePath, type: TrackType) const πŸ”—

Returns the index of the specified track. If the track is not found, return -1.


int get_track_count() const πŸ”—

Returns the amount of tracks in the animation.


StringName method_track_get_name(track_idx: int, key_idx: int) const πŸ”—

Returns the method name of a method track.


Array method_track_get_params(track_idx: int, key_idx: int) const πŸ”—

Returns the arguments values to be called on a method track for a given key in a given track.


int position_track_insert_key(track_idx: int, time: float, position: Vector3) πŸ”—

Inserts a key in a given 3D position track. Returns the key index.


Vector3 position_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const πŸ”—

Returns the interpolated position value at the given time (in seconds). The track_idx must be the index of a 3D position track.


void remove_track(track_idx: int) πŸ”—

Removes a track by specifying the track index.


int rotation_track_insert_key(track_idx: int, time: float, rotation: Quaternion) πŸ”—

Inserts a key in a given 3D rotation track. Returns the key index.


Quaternion rotation_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const πŸ”—

Returns the interpolated rotation value at the given time (in seconds). The track_idx must be the index of a 3D rotation track.


int scale_track_insert_key(track_idx: int, time: float, scale: Vector3) πŸ”—

Inserts a key in a given 3D scale track. Returns the key index.


Vector3 scale_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const πŸ”—

Returns the interpolated scale value at the given time (in seconds). The track_idx must be the index of a 3D scale track.


int track_find_key(track_idx: int, time: float, find_mode: FindMode = 0, limit: bool = false, backward: bool = false) const πŸ”—

Finds the key index by time in a given track. Optionally, only find it if the approx/exact time is given.

If limit is true, it does not return keys outside the animation range.

If backward is true, the direction is reversed in methods that rely on one directional processing.

For example, in case find_mode is FIND_MODE_NEAREST, if there is no key in the current position just after seeked, the first key found is retrieved by searching before the position, but if backward is true, the first key found is retrieved after the position.


bool track_get_interpolation_loop_wrap(track_idx: int) const πŸ”—

Returns true if the track at track_idx wraps the interpolation loop. New tracks wrap the interpolation loop by default.


InterpolationType track_get_interpolation_type(track_idx: int) const πŸ”—

Returns the interpolation type of a given track.


int track_get_key_count(track_idx: int) const πŸ”—

Returns the number of keys in a given track.


float track_get_key_time(track_idx: int, key_idx: int) const πŸ”—

Returns the time at which the key is located.


float track_get_key_transition(track_idx: int, key_idx: int) const πŸ”—

Returns the transition curve (easing) for a specific key (see the built-in math function @GlobalScope.ease).


Variant track_get_key_value(track_idx: int, key_idx: int) const πŸ”—

Returns the value of a given key in a given track.


NodePath track_get_path(track_idx: int) const πŸ”—

Gets the path of a track. For more information on the path format, see track_set_path.


TrackType track_get_type(track_idx: int) const πŸ”—

Gets the type of a track.


int track_insert_key(track_idx: int, time: float, key: Variant, transition: float = 1) πŸ”—

Inserts a generic key in a given track. Returns the key index.


bool track_is_compressed(track_idx: int) const πŸ”—

Returns true if the track is compressed, false otherwise. See also compress.


bool track_is_enabled(track_idx: int) const πŸ”—

Returns true if the track at index track_idx is enabled.


bool track_is_imported(track_idx: int) const πŸ”—

Returns true if the given track is imported. Else, return false.


void track_move_down(track_idx: int) πŸ”—

Moves a track down.


void track_move_to(track_idx: int, to_idx: int) πŸ”—

Changes the index position of track track_idx to the one defined in to_idx.


void track_move_up(track_idx: int) πŸ”—

Moves a track up.


void track_remove_key(track_idx: int, key_idx: int) πŸ”—

Removes a key by index in a given track.


void track_remove_key_at_time(track_idx: int, time: float) πŸ”—

Removes a key at time in a given track.


void track_set_enabled(track_idx: int, enabled: bool) πŸ”—

Enables/disables the given track. Tracks are enabled by default.


void track_set_imported(track_idx: int, imported: bool) πŸ”—

Sets the given track as imported or not.


void track_set_interpolation_loop_wrap(track_idx: int, interpolation: bool) πŸ”—

If true, the track at track_idx wraps the interpolation loop.


void track_set_interpolation_type(track_idx: int, interpolation: InterpolationType) πŸ”—

Sets the interpolation type of a given track.


void track_set_key_time(track_idx: int, key_idx: int, time: float) πŸ”—

Sets the time of an existing key.


void track_set_key_transition(track_idx: int, key_idx: int, transition: float) πŸ”—

Sets the transition curve (easing) for a specific key (see the built-in math function @GlobalScope.ease).


void track_set_key_value(track_idx: int, key: int, value: Variant) πŸ”—

Sets the value of an existing key.


void track_set_path(track_idx: int, path: NodePath) πŸ”—

Sets the path of a track. Paths must be valid scene-tree paths to a node and must be specified starting from the AnimationMixer.root_node that will reproduce the animation. Tracks that control properties or bones must append their name after the path, separated by ":".

For example, "character/skeleton:ankle" or "character/mesh:transform/local".


void track_swap(track_idx: int, with_idx: int) πŸ”—

Swaps the track track_idx's index position with the track with_idx.


UpdateMode value_track_get_update_mode(track_idx: int) const πŸ”—

Returns the update mode of a value track.


Variant value_track_interpolate(track_idx: int, time_sec: float, backward: bool = false) const πŸ”—

Returns the interpolated value at the given time (in seconds). The track_idx must be the index of a value track.

A backward mainly affects the direction of key retrieval of the track with UPDATE_DISCRETE converted by AnimationMixer.ANIMATION_CALLBACK_MODE_DISCRETE_FORCE_CONTINUOUS to match the result with track_find_key.


void value_track_set_update_mode(track_idx: int, mode: UpdateMode) πŸ”—

Sets the update mode (see UpdateMode) of a value track.