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godot/scene/animation/animation_mixer.cpp
chocola-mint ed13a840fa Add markers to animation
2024-09-29 17:27:36 +09:00

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/**************************************************************************/
/* animation_mixer.cpp */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/**************************************************************************/
#include "animation_mixer.h"
#include "animation_mixer.compat.inc"
#include "core/config/engine.h"
#include "core/config/project_settings.h"
#include "scene/2d/audio_stream_player_2d.h"
#include "scene/animation/animation_player.h"
#include "scene/audio/audio_stream_player.h"
#include "scene/resources/animation.h"
#include "servers/audio/audio_stream.h"
#include "servers/audio_server.h"
#ifndef _3D_DISABLED
#include "scene/3d/audio_stream_player_3d.h"
#include "scene/3d/mesh_instance_3d.h"
#include "scene/3d/node_3d.h"
#include "scene/3d/skeleton_3d.h"
#include "scene/3d/skeleton_modifier_3d.h"
#endif // _3D_DISABLED
#ifdef TOOLS_ENABLED
#include "editor/editor_node.h"
#include "editor/editor_undo_redo_manager.h"
#endif // TOOLS_ENABLED
bool AnimationMixer::_set(const StringName &p_name, const Variant &p_value) {
String name = p_name;
#ifndef DISABLE_DEPRECATED
if (name.begins_with("anims/")) {
// Backwards compatibility with 3.x, add them to "default" library.
String which = name.get_slicec('/', 1);
Ref<Animation> anim = p_value;
Ref<AnimationLibrary> al;
if (!has_animation_library(StringName())) {
al.instantiate();
add_animation_library(StringName(), al);
} else {
al = get_animation_library(StringName());
}
al->add_animation(which, anim);
} else if (name.begins_with("libraries")) {
#else
if (name.begins_with("libraries")) {
#endif // DISABLE_DEPRECATED
Dictionary d = p_value;
while (animation_libraries.size()) {
remove_animation_library(animation_libraries[0].name);
}
List<Variant> keys;
d.get_key_list(&keys);
for (const Variant &K : keys) {
Ref<AnimationLibrary> lib = d[K];
add_animation_library(K, lib);
}
emit_signal(SNAME("animation_libraries_updated"));
} else {
return false;
}
return true;
}
bool AnimationMixer::_get(const StringName &p_name, Variant &r_ret) const {
String name = p_name;
if (name.begins_with("libraries")) {
Dictionary d;
for (const AnimationLibraryData &lib : animation_libraries) {
d[lib.name] = lib.library;
}
r_ret = d;
} else {
return false;
}
return true;
}
void AnimationMixer::_get_property_list(List<PropertyInfo> *p_list) const {
List<PropertyInfo> anim_names;
anim_names.push_back(PropertyInfo(Variant::DICTIONARY, PNAME("libraries")));
for (const PropertyInfo &E : anim_names) {
p_list->push_back(E);
}
for (PropertyInfo &E : *p_list) {
_validate_property(E);
}
}
void AnimationMixer::_validate_property(PropertyInfo &p_property) const {
#ifdef TOOLS_ENABLED
if (editing && (p_property.name == "active" || p_property.name == "deterministic" || p_property.name == "root_motion_track")) {
p_property.usage |= PROPERTY_USAGE_READ_ONLY;
}
#endif // TOOLS_ENABLED
}
/* -------------------------------------------- */
/* -- Data lists ------------------------------ */
/* -------------------------------------------- */
void AnimationMixer::_animation_set_cache_update() {
// Relatively fast function to update all animations.
animation_set_update_pass++;
bool clear_cache_needed = false;
// Update changed and add otherwise.
for (const AnimationLibraryData &lib : animation_libraries) {
for (const KeyValue<StringName, Ref<Animation>> &K : lib.library->animations) {
StringName key = lib.name == StringName() ? K.key : StringName(String(lib.name) + "/" + String(K.key));
if (!animation_set.has(key)) {
AnimationData ad;
ad.animation = K.value;
ad.animation_library = lib.name;
ad.name = key;
ad.last_update = animation_set_update_pass;
animation_set.insert(ad.name, ad);
cache_valid = false; // No need to delete the cache, but it must be updated to add track caches.
} else {
AnimationData &ad = animation_set[key];
if (ad.last_update != animation_set_update_pass) {
// Was not updated, update. If the animation is duplicated, the second one will be ignored.
if (ad.animation != K.value || ad.animation_library != lib.name) {
// Animation changed, update and clear caches.
clear_cache_needed = true;
ad.animation = K.value;
ad.animation_library = lib.name;
}
ad.last_update = animation_set_update_pass;
}
}
}
}
// Check removed.
List<StringName> to_erase;
for (const KeyValue<StringName, AnimationData> &E : animation_set) {
if (E.value.last_update != animation_set_update_pass) {
// Was not updated, must be erased.
to_erase.push_back(E.key);
clear_cache_needed = true;
}
}
while (to_erase.size()) {
animation_set.erase(to_erase.front()->get());
to_erase.pop_front();
}
if (clear_cache_needed) {
// If something was modified or removed, caches need to be cleared.
_clear_caches();
}
emit_signal(SNAME("animation_list_changed"));
}
void AnimationMixer::_animation_added(const StringName &p_name, const StringName &p_library) {
_animation_set_cache_update();
}
void AnimationMixer::_animation_removed(const StringName &p_name, const StringName &p_library) {
StringName name = p_library == StringName() ? p_name : StringName(String(p_library) + "/" + String(p_name));
if (!animation_set.has(name)) {
return; // No need to update because not the one from the library being used.
}
_animation_set_cache_update();
_remove_animation(name);
}
void AnimationMixer::_animation_renamed(const StringName &p_name, const StringName &p_to_name, const StringName &p_library) {
StringName from_name = p_library == StringName() ? p_name : StringName(String(p_library) + "/" + String(p_name));
StringName to_name = p_library == StringName() ? p_to_name : StringName(String(p_library) + "/" + String(p_to_name));
if (!animation_set.has(from_name)) {
return; // No need to update because not the one from the library being used.
}
_animation_set_cache_update();
_rename_animation(from_name, to_name);
}
void AnimationMixer::_animation_changed(const StringName &p_name) {
_clear_caches();
}
void AnimationMixer::_set_active(bool p_active) {
//
}
void AnimationMixer::_remove_animation(const StringName &p_name) {
//
}
void AnimationMixer::_rename_animation(const StringName &p_from_name, const StringName &p_to_name) {
//
}
TypedArray<StringName> AnimationMixer::_get_animation_library_list() const {
TypedArray<StringName> ret;
for (const AnimationLibraryData &lib : animation_libraries) {
ret.push_back(lib.name);
}
return ret;
}
void AnimationMixer::get_animation_library_list(List<StringName> *p_libraries) const {
for (const AnimationLibraryData &lib : animation_libraries) {
p_libraries->push_back(lib.name);
}
}
Ref<AnimationLibrary> AnimationMixer::get_animation_library(const StringName &p_name) const {
for (const AnimationLibraryData &lib : animation_libraries) {
if (lib.name == p_name) {
return lib.library;
}
}
ERR_FAIL_V(Ref<AnimationLibrary>());
}
bool AnimationMixer::has_animation_library(const StringName &p_name) const {
for (const AnimationLibraryData &lib : animation_libraries) {
if (lib.name == p_name) {
return true;
}
}
return false;
}
StringName AnimationMixer::find_animation_library(const Ref<Animation> &p_animation) const {
for (const KeyValue<StringName, AnimationData> &E : animation_set) {
if (E.value.animation == p_animation) {
return E.value.animation_library;
}
}
return StringName();
}
Error AnimationMixer::add_animation_library(const StringName &p_name, const Ref<AnimationLibrary> &p_animation_library) {
ERR_FAIL_COND_V(p_animation_library.is_null(), ERR_INVALID_PARAMETER);
#ifdef DEBUG_ENABLED
ERR_FAIL_COND_V_MSG(String(p_name).contains("/") || String(p_name).contains(":") || String(p_name).contains(",") || String(p_name).contains("["), ERR_INVALID_PARAMETER, "Invalid animation name: " + String(p_name) + ".");
#endif
int insert_pos = 0;
for (const AnimationLibraryData &lib : animation_libraries) {
ERR_FAIL_COND_V_MSG(lib.name == p_name, ERR_ALREADY_EXISTS, "Can't add animation library twice with name: " + String(p_name));
ERR_FAIL_COND_V_MSG(lib.library == p_animation_library, ERR_ALREADY_EXISTS, "Can't add animation library twice (adding as '" + p_name.operator String() + "', exists as '" + lib.name.operator String() + "'.");
if (lib.name.operator String() >= p_name.operator String()) {
break;
}
insert_pos++;
}
AnimationLibraryData ald;
ald.name = p_name;
ald.library = p_animation_library;
animation_libraries.insert(insert_pos, ald);
ald.library->connect(SNAME("animation_added"), callable_mp(this, &AnimationMixer::_animation_added).bind(p_name));
ald.library->connect(SNAME("animation_removed"), callable_mp(this, &AnimationMixer::_animation_removed).bind(p_name));
ald.library->connect(SNAME("animation_renamed"), callable_mp(this, &AnimationMixer::_animation_renamed).bind(p_name));
ald.library->connect(SceneStringName(animation_changed), callable_mp(this, &AnimationMixer::_animation_changed));
_animation_set_cache_update();
notify_property_list_changed();
return OK;
}
void AnimationMixer::remove_animation_library(const StringName &p_name) {
int at_pos = -1;
for (uint32_t i = 0; i < animation_libraries.size(); i++) {
if (animation_libraries[i].name == p_name) {
at_pos = i;
break;
}
}
ERR_FAIL_COND(at_pos == -1);
animation_libraries[at_pos].library->disconnect(SNAME("animation_added"), callable_mp(this, &AnimationMixer::_animation_added));
animation_libraries[at_pos].library->disconnect(SNAME("animation_removed"), callable_mp(this, &AnimationMixer::_animation_removed));
animation_libraries[at_pos].library->disconnect(SNAME("animation_renamed"), callable_mp(this, &AnimationMixer::_animation_renamed));
animation_libraries[at_pos].library->disconnect(SceneStringName(animation_changed), callable_mp(this, &AnimationMixer::_animation_changed));
animation_libraries.remove_at(at_pos);
_animation_set_cache_update();
notify_property_list_changed();
}
void AnimationMixer::rename_animation_library(const StringName &p_name, const StringName &p_new_name) {
if (p_name == p_new_name) {
return;
}
#ifdef DEBUG_ENABLED
ERR_FAIL_COND_MSG(String(p_new_name).contains("/") || String(p_new_name).contains(":") || String(p_new_name).contains(",") || String(p_new_name).contains("["), "Invalid animation library name: " + String(p_new_name) + ".");
#endif
bool found = false;
for (AnimationLibraryData &lib : animation_libraries) {
ERR_FAIL_COND_MSG(lib.name == p_new_name, "Can't rename animation library to another existing name: " + String(p_new_name) + ".");
if (lib.name == p_name) {
found = true;
lib.name = p_new_name;
// rename connections
lib.library->disconnect(SNAME("animation_added"), callable_mp(this, &AnimationMixer::_animation_added));
lib.library->disconnect(SNAME("animation_removed"), callable_mp(this, &AnimationMixer::_animation_removed));
lib.library->disconnect(SNAME("animation_renamed"), callable_mp(this, &AnimationMixer::_animation_renamed));
lib.library->connect(SNAME("animation_added"), callable_mp(this, &AnimationMixer::_animation_added).bind(p_new_name));
lib.library->connect(SNAME("animation_removed"), callable_mp(this, &AnimationMixer::_animation_removed).bind(p_new_name));
lib.library->connect(SNAME("animation_renamed"), callable_mp(this, &AnimationMixer::_animation_renamed).bind(p_new_name));
for (const KeyValue<StringName, Ref<Animation>> &K : lib.library->animations) {
StringName old_name = p_name == StringName() ? K.key : StringName(String(p_name) + "/" + String(K.key));
StringName new_name = p_new_name == StringName() ? K.key : StringName(String(p_new_name) + "/" + String(K.key));
_rename_animation(old_name, new_name);
}
}
}
ERR_FAIL_COND(!found);
animation_libraries.sort(); // Must keep alphabetical order.
_animation_set_cache_update(); // Update cache.
notify_property_list_changed();
}
void AnimationMixer::get_animation_list(List<StringName> *p_animations) const {
List<String> anims;
for (const KeyValue<StringName, AnimationData> &E : animation_set) {
anims.push_back(E.key);
}
anims.sort();
for (const String &E : anims) {
p_animations->push_back(E);
}
}
Ref<Animation> AnimationMixer::get_animation(const StringName &p_name) const {
ERR_FAIL_COND_V_MSG(!animation_set.has(p_name), Ref<Animation>(), vformat("Animation not found: \"%s\".", p_name));
const AnimationData &anim_data = animation_set[p_name];
return anim_data.animation;
}
bool AnimationMixer::has_animation(const StringName &p_name) const {
return animation_set.has(p_name);
}
StringName AnimationMixer::find_animation(const Ref<Animation> &p_animation) const {
for (const KeyValue<StringName, AnimationData> &E : animation_set) {
if (E.value.animation == p_animation) {
return E.key;
}
}
return StringName();
}
/* -------------------------------------------- */
/* -- General settings for animation ---------- */
/* -------------------------------------------- */
void AnimationMixer::_set_process(bool p_process, bool p_force) {
if (processing == p_process && !p_force) {
return;
}
switch (callback_mode_process) {
case ANIMATION_CALLBACK_MODE_PROCESS_PHYSICS:
#ifdef TOOLS_ENABLED
set_physics_process_internal(p_process && active && !editing);
#else
set_physics_process_internal(p_process && active);
#endif // TOOLS_ENABLED
break;
case ANIMATION_CALLBACK_MODE_PROCESS_IDLE:
#ifdef TOOLS_ENABLED
set_process_internal(p_process && active && !editing);
#else
set_process_internal(p_process && active);
#endif // TOOLS_ENABLED
break;
case ANIMATION_CALLBACK_MODE_PROCESS_MANUAL:
break;
}
processing = p_process;
}
void AnimationMixer::set_active(bool p_active) {
if (active == p_active) {
return;
}
active = p_active;
_set_active(active);
_set_process(processing, true);
if (!active && is_inside_tree()) {
_clear_caches();
}
}
bool AnimationMixer::is_active() const {
return active;
}
void AnimationMixer::set_root_node(const NodePath &p_path) {
root_node = p_path;
_clear_caches();
}
NodePath AnimationMixer::get_root_node() const {
return root_node;
}
void AnimationMixer::set_deterministic(bool p_deterministic) {
deterministic = p_deterministic;
_clear_caches();
}
bool AnimationMixer::is_deterministic() const {
return deterministic;
}
void AnimationMixer::set_callback_mode_process(AnimationCallbackModeProcess p_mode) {
if (callback_mode_process == p_mode) {
return;
}
bool was_active = is_active();
if (was_active) {
set_active(false);
}
callback_mode_process = p_mode;
if (was_active) {
set_active(true);
}
}
AnimationMixer::AnimationCallbackModeProcess AnimationMixer::get_callback_mode_process() const {
return callback_mode_process;
}
void AnimationMixer::set_callback_mode_method(AnimationCallbackModeMethod p_mode) {
callback_mode_method = p_mode;
emit_signal(SNAME("mixer_updated"));
}
AnimationMixer::AnimationCallbackModeMethod AnimationMixer::get_callback_mode_method() const {
return callback_mode_method;
}
void AnimationMixer::set_callback_mode_discrete(AnimationCallbackModeDiscrete p_mode) {
callback_mode_discrete = p_mode;
_clear_caches();
emit_signal(SNAME("mixer_updated"));
}
AnimationMixer::AnimationCallbackModeDiscrete AnimationMixer::get_callback_mode_discrete() const {
return callback_mode_discrete;
}
void AnimationMixer::set_audio_max_polyphony(int p_audio_max_polyphony) {
ERR_FAIL_COND(p_audio_max_polyphony < 0 || p_audio_max_polyphony > 128);
audio_max_polyphony = p_audio_max_polyphony;
}
int AnimationMixer::get_audio_max_polyphony() const {
return audio_max_polyphony;
}
#ifdef TOOLS_ENABLED
void AnimationMixer::set_editing(bool p_editing) {
if (editing == p_editing) {
return;
}
editing = p_editing;
_set_process(processing, true);
if (editing && is_inside_tree()) {
_clear_caches();
}
notify_property_list_changed(); // To make active readonly.
}
bool AnimationMixer::is_editing() const {
return editing;
}
void AnimationMixer::set_dummy(bool p_dummy) {
dummy = p_dummy;
}
bool AnimationMixer::is_dummy() const {
return dummy;
}
#endif // TOOLS_ENABLED
/* -------------------------------------------- */
/* -- Caches for blending --------------------- */
/* -------------------------------------------- */
void AnimationMixer::_clear_caches() {
_init_root_motion_cache();
_clear_audio_streams();
_clear_playing_caches();
for (KeyValue<Animation::TypeHash, TrackCache *> &K : track_cache) {
memdelete(K.value);
}
track_cache.clear();
cache_valid = false;
capture_cache.clear();
emit_signal(SNAME("caches_cleared"));
}
void AnimationMixer::_clear_audio_streams() {
for (int i = 0; i < playing_audio_stream_players.size(); i++) {
playing_audio_stream_players[i]->call(SNAME("stop"));
playing_audio_stream_players[i]->call(SNAME("set_stream"), Ref<AudioStream>());
}
playing_audio_stream_players.clear();
}
void AnimationMixer::_clear_playing_caches() {
for (const TrackCache *E : playing_caches) {
Object *t_obj = ObjectDB::get_instance(E->object_id);
if (t_obj) {
t_obj->call(SNAME("stop"), true);
}
}
playing_caches.clear();
}
void AnimationMixer::_init_root_motion_cache() {
root_motion_cache.loc = Vector3(0, 0, 0);
root_motion_cache.rot = Quaternion(0, 0, 0, 1);
root_motion_cache.scale = Vector3(1, 1, 1);
root_motion_position = Vector3(0, 0, 0);
root_motion_rotation = Quaternion(0, 0, 0, 1);
root_motion_scale = Vector3(0, 0, 0);
root_motion_position_accumulator = Vector3(0, 0, 0);
root_motion_rotation_accumulator = Quaternion(0, 0, 0, 1);
root_motion_scale_accumulator = Vector3(1, 1, 1);
}
bool AnimationMixer::_update_caches() {
setup_pass++;
root_motion_cache.loc = Vector3(0, 0, 0);
root_motion_cache.rot = Quaternion(0, 0, 0, 1);
root_motion_cache.scale = Vector3(1, 1, 1);
List<StringName> sname_list;
get_animation_list(&sname_list);
bool check_path = GLOBAL_GET("animation/warnings/check_invalid_track_paths");
bool check_angle_interpolation = GLOBAL_GET("animation/warnings/check_angle_interpolation_type_conflicting");
Node *parent = get_node_or_null(root_node);
if (!parent) {
cache_valid = false;
return false;
}
#ifdef TOOLS_ENABLED
String mixer_name = "AnimationMixer";
const Node *owner = get_owner();
if (owner) {
const String scene_path = owner->get_scene_file_path();
if (!scene_path.is_empty()) {
mixer_name += vformat(" (at: %s)", scene_path.get_file());
}
}
#else
const String mixer_name = "AnimationMixer";
#endif
Ref<Animation> reset_anim;
bool has_reset_anim = has_animation(SceneStringName(RESET));
if (has_reset_anim) {
reset_anim = get_animation(SceneStringName(RESET));
}
for (const StringName &E : sname_list) {
Ref<Animation> anim = get_animation(E);
for (int i = 0; i < anim->get_track_count(); i++) {
NodePath path = anim->track_get_path(i);
Animation::TypeHash thash = anim->track_get_type_hash(i);
Animation::TrackType track_src_type = anim->track_get_type(i);
Animation::TrackType track_cache_type = Animation::get_cache_type(track_src_type);
TrackCache *track = nullptr;
if (track_cache.has(thash)) {
track = track_cache.get(thash);
}
// If not valid, delete track.
if (track && (track->type != track_cache_type || ObjectDB::get_instance(track->object_id) == nullptr)) {
playing_caches.erase(track);
memdelete(track);
track_cache.erase(thash);
track = nullptr;
}
if (!track) {
Ref<Resource> resource;
Vector<StringName> leftover_path;
Node *child = parent->get_node_and_resource(path, resource, leftover_path);
if (!child) {
if (check_path) {
WARN_PRINT_ED(mixer_name + ": '" + String(E) + "', couldn't resolve track: '" + String(path) + "'. This warning can be disabled in Project Settings.");
}
continue;
}
switch (track_src_type) {
case Animation::TYPE_BEZIER:
case Animation::TYPE_VALUE: {
// If a value track without a key is cached first, the initial value cannot be determined.
// It is a corner case, but which may cause problems with blending.
ERR_CONTINUE_MSG(anim->track_get_key_count(i) == 0, mixer_name + ": '" + String(E) + "', Value Track: '" + String(path) + "' must have at least one key to cache for blending.");
TrackCacheValue *track_value = memnew(TrackCacheValue);
if (resource.is_valid()) {
track_value->object_id = resource->get_instance_id();
} else {
track_value->object_id = child->get_instance_id();
}
track_value->is_using_angle = anim->track_get_interpolation_type(i) == Animation::INTERPOLATION_LINEAR_ANGLE || anim->track_get_interpolation_type(i) == Animation::INTERPOLATION_CUBIC_ANGLE;
track_value->subpath = leftover_path;
track = track_value;
bool is_value = track_src_type == Animation::TYPE_VALUE;
track_value->init_value = is_value ? anim->track_get_key_value(i, 0) : (anim->track_get_key_value(i, 0).operator Array())[0];
track_value->init_value.zero();
track_value->is_init = false;
// Can't interpolate them, need to convert.
track_value->is_variant_interpolatable = Animation::is_variant_interpolatable(track_value->init_value);
// If there is a Reset Animation, it takes precedence by overwriting.
if (has_reset_anim) {
int rt = reset_anim->find_track(path, track_src_type);
if (rt >= 0) {
if (is_value) {
if (reset_anim->track_get_key_count(rt) > 0) {
track_value->init_value = reset_anim->track_get_key_value(rt, 0);
}
} else {
if (reset_anim->track_get_key_count(rt) > 0) {
track_value->init_value = (reset_anim->track_get_key_value(rt, 0).operator Array())[0];
}
}
}
}
} break;
case Animation::TYPE_POSITION_3D:
case Animation::TYPE_ROTATION_3D:
case Animation::TYPE_SCALE_3D: {
#ifndef _3D_DISABLED
Node3D *node_3d = Object::cast_to<Node3D>(child);
if (!node_3d) {
ERR_PRINT(mixer_name + ": '" + String(E) + "', transform track does not point to Node3D: '" + String(path) + "'.");
continue;
}
TrackCacheTransform *track_xform = memnew(TrackCacheTransform);
track_xform->type = Animation::TYPE_POSITION_3D;
track_xform->bone_idx = -1;
bool has_rest = false;
Skeleton3D *sk = Object::cast_to<Skeleton3D>(node_3d);
if (sk && path.get_subname_count() == 1) {
track_xform->skeleton_id = sk->get_instance_id();
int bone_idx = sk->find_bone(path.get_subname(0));
if (bone_idx != -1) {
has_rest = true;
track_xform->bone_idx = bone_idx;
Transform3D rest = sk->get_bone_rest(bone_idx);
track_xform->init_loc = rest.origin;
track_xform->init_rot = rest.basis.get_rotation_quaternion();
track_xform->init_scale = rest.basis.get_scale();
}
}
track_xform->object_id = node_3d->get_instance_id();
track = track_xform;
switch (track_src_type) {
case Animation::TYPE_POSITION_3D: {
track_xform->loc_used = true;
} break;
case Animation::TYPE_ROTATION_3D: {
track_xform->rot_used = true;
} break;
case Animation::TYPE_SCALE_3D: {
track_xform->scale_used = true;
} break;
default: {
}
}
// For non Skeleton3D bone animation.
if (has_reset_anim && !has_rest) {
int rt = reset_anim->find_track(path, track_src_type);
if (rt >= 0 && reset_anim->track_get_key_count(rt) > 0) {
switch (track_src_type) {
case Animation::TYPE_POSITION_3D: {
track_xform->init_loc = reset_anim->track_get_key_value(rt, 0);
} break;
case Animation::TYPE_ROTATION_3D: {
track_xform->init_rot = reset_anim->track_get_key_value(rt, 0);
} break;
case Animation::TYPE_SCALE_3D: {
track_xform->init_scale = reset_anim->track_get_key_value(rt, 0);
} break;
default: {
}
}
}
}
#endif // _3D_DISABLED
} break;
case Animation::TYPE_BLEND_SHAPE: {
#ifndef _3D_DISABLED
if (path.get_subname_count() != 1) {
ERR_PRINT(mixer_name + ": '" + String(E) + "', blend shape track does not contain a blend shape subname: '" + String(path) + "'.");
continue;
}
MeshInstance3D *mesh_3d = Object::cast_to<MeshInstance3D>(child);
if (!mesh_3d) {
ERR_PRINT(mixer_name + ": '" + String(E) + "', blend shape track does not point to MeshInstance3D: '" + String(path) + "'.");
continue;
}
StringName blend_shape_name = path.get_subname(0);
int blend_shape_idx = mesh_3d->find_blend_shape_by_name(blend_shape_name);
if (blend_shape_idx == -1) {
ERR_PRINT(mixer_name + ": '" + String(E) + "', blend shape track points to a non-existing name: '" + String(blend_shape_name) + "'.");
continue;
}
TrackCacheBlendShape *track_bshape = memnew(TrackCacheBlendShape);
track_bshape->shape_index = blend_shape_idx;
track_bshape->object_id = mesh_3d->get_instance_id();
track = track_bshape;
if (has_reset_anim) {
int rt = reset_anim->find_track(path, track_src_type);
if (rt >= 0 && reset_anim->track_get_key_count(rt) > 0) {
track_bshape->init_value = reset_anim->track_get_key_value(rt, 0);
}
}
#endif
} break;
case Animation::TYPE_METHOD: {
TrackCacheMethod *track_method = memnew(TrackCacheMethod);
if (resource.is_valid()) {
track_method->object_id = resource->get_instance_id();
} else {
track_method->object_id = child->get_instance_id();
}
track = track_method;
} break;
case Animation::TYPE_AUDIO: {
TrackCacheAudio *track_audio = memnew(TrackCacheAudio);
track_audio->object_id = child->get_instance_id();
track_audio->audio_stream.instantiate();
track_audio->audio_stream->set_polyphony(audio_max_polyphony);
track_audio->playback_type = (AudioServer::PlaybackType)(int)(child->call(SNAME("get_playback_type")));
track_audio->bus = (StringName)(child->call(SNAME("get_bus")));
track = track_audio;
} break;
case Animation::TYPE_ANIMATION: {
TrackCacheAnimation *track_animation = memnew(TrackCacheAnimation);
track_animation->object_id = child->get_instance_id();
track = track_animation;
} break;
default: {
ERR_PRINT("Animation corrupted (invalid track type).");
continue;
}
}
track->path = path;
track_cache[thash] = track;
} else if (track_cache_type == Animation::TYPE_POSITION_3D) {
TrackCacheTransform *track_xform = static_cast<TrackCacheTransform *>(track);
if (track->setup_pass != setup_pass) {
track_xform->loc_used = false;
track_xform->rot_used = false;
track_xform->scale_used = false;
}
switch (track_src_type) {
case Animation::TYPE_POSITION_3D: {
track_xform->loc_used = true;
} break;
case Animation::TYPE_ROTATION_3D: {
track_xform->rot_used = true;
} break;
case Animation::TYPE_SCALE_3D: {
track_xform->scale_used = true;
} break;
default: {
}
}
} else if (track_cache_type == Animation::TYPE_VALUE) {
TrackCacheValue *track_value = static_cast<TrackCacheValue *>(track);
// If it has at least one angle interpolation, it also uses angle interpolation for blending.
bool was_using_angle = track_value->is_using_angle;
if (track_src_type == Animation::TYPE_VALUE) {
if (track_value->init_value.is_string() && anim->value_track_get_update_mode(i) != Animation::UPDATE_DISCRETE) {
WARN_PRINT_ONCE_ED(mixer_name + ": '" + String(E) + "', Value Track: '" + String(path) + "' blends String types. This is an experimental algorithm.");
}
track_value->is_using_angle = track_value->is_using_angle || anim->track_get_interpolation_type(i) == Animation::INTERPOLATION_LINEAR_ANGLE || anim->track_get_interpolation_type(i) == Animation::INTERPOLATION_CUBIC_ANGLE;
}
if (check_angle_interpolation && (was_using_angle != track_value->is_using_angle)) {
WARN_PRINT_ED(mixer_name + ": '" + String(E) + "', Value Track: '" + String(path) + "' has different interpolation types for rotation between some animations which may be blended together. Blending prioritizes angle interpolation, so the blending result uses the shortest path referenced to the initial (RESET animation) value.");
}
}
track->setup_pass = setup_pass;
}
}
List<Animation::TypeHash> to_delete;
for (const KeyValue<Animation::TypeHash, TrackCache *> &K : track_cache) {
if (K.value->setup_pass != setup_pass) {
to_delete.push_back(K.key);
}
}
while (to_delete.front()) {
Animation::TypeHash thash = to_delete.front()->get();
memdelete(track_cache[thash]);
track_cache.erase(thash);
to_delete.pop_front();
}
track_map.clear();
int idx = 0;
for (const KeyValue<Animation::TypeHash, TrackCache *> &K : track_cache) {
track_map[K.value->path] = idx;
idx++;
}
track_count = idx;
cache_valid = true;
return true;
}
/* -------------------------------------------- */
/* -- Blending processor ---------------------- */
/* -------------------------------------------- */
void AnimationMixer::_process_animation(double p_delta, bool p_update_only) {
_blend_init();
if (_blend_pre_process(p_delta, track_count, track_map)) {
_blend_capture(p_delta);
_blend_calc_total_weight();
_blend_process(p_delta, p_update_only);
_blend_apply();
_blend_post_process();
emit_signal(SNAME("mixer_applied"));
};
clear_animation_instances();
}
Variant AnimationMixer::_post_process_key_value(const Ref<Animation> &p_anim, int p_track, Variant p_value, ObjectID p_object_id, int p_object_sub_idx) {
#ifndef _3D_DISABLED
switch (p_anim->track_get_type(p_track)) {
case Animation::TYPE_POSITION_3D: {
if (p_object_sub_idx >= 0) {
Skeleton3D *skel = Object::cast_to<Skeleton3D>(ObjectDB::get_instance(p_object_id));
if (skel) {
return Vector3(p_value) * skel->get_motion_scale();
}
}
return p_value;
} break;
default: {
} break;
}
#endif // _3D_DISABLED
return p_value;
}
Variant AnimationMixer::post_process_key_value(const Ref<Animation> &p_anim, int p_track, Variant p_value, ObjectID p_object_id, int p_object_sub_idx) {
if (is_GDVIRTUAL_CALL_post_process_key_value) {
Variant res;
if (GDVIRTUAL_CALL(_post_process_key_value, p_anim, p_track, p_value, p_object_id, p_object_sub_idx, res)) {
return res;
}
is_GDVIRTUAL_CALL_post_process_key_value = false;
}
return _post_process_key_value(p_anim, p_track, p_value, p_object_id, p_object_sub_idx);
}
void AnimationMixer::_blend_init() {
// Check all tracks, see if they need modification.
root_motion_position = Vector3(0, 0, 0);
root_motion_rotation = Quaternion(0, 0, 0, 1);
root_motion_scale = Vector3(0, 0, 0);
root_motion_position_accumulator = Vector3(0, 0, 0);
root_motion_rotation_accumulator = Quaternion(0, 0, 0, 1);
root_motion_scale_accumulator = Vector3(1, 1, 1);
if (!cache_valid) {
if (!_update_caches()) {
return;
}
}
// Init all value/transform/blend/bezier tracks that track_cache has.
for (const KeyValue<Animation::TypeHash, TrackCache *> &K : track_cache) {
TrackCache *track = K.value;
track->total_weight = 0.0;
switch (track->type) {
case Animation::TYPE_POSITION_3D: {
TrackCacheTransform *t = static_cast<TrackCacheTransform *>(track);
if (track->root_motion) {
root_motion_cache.loc = Vector3(0, 0, 0);
root_motion_cache.rot = Quaternion(0, 0, 0, 1);
root_motion_cache.scale = Vector3(1, 1, 1);
}
t->loc = t->init_loc;
t->rot = t->init_rot;
t->scale = t->init_scale;
} break;
case Animation::TYPE_BLEND_SHAPE: {
TrackCacheBlendShape *t = static_cast<TrackCacheBlendShape *>(track);
t->value = t->init_value;
} break;
case Animation::TYPE_VALUE: {
TrackCacheValue *t = static_cast<TrackCacheValue *>(track);
t->value = Animation::cast_to_blendwise(t->init_value);
t->element_size = t->init_value.is_string() ? (real_t)(t->init_value.operator String()).length() : 0;
t->use_continuous = false;
t->use_discrete = false;
} break;
case Animation::TYPE_AUDIO: {
TrackCacheAudio *t = static_cast<TrackCacheAudio *>(track);
for (KeyValue<ObjectID, PlayingAudioTrackInfo> &L : t->playing_streams) {
PlayingAudioTrackInfo &track_info = L.value;
track_info.volume = 0.0;
}
} break;
default: {
} break;
}
}
}
bool AnimationMixer::_blend_pre_process(double p_delta, int p_track_count, const HashMap<NodePath, int> &p_track_map) {
return true;
}
void AnimationMixer::_blend_post_process() {
//
}
void AnimationMixer::_blend_capture(double p_delta) {
blend_capture(p_delta);
}
void AnimationMixer::blend_capture(double p_delta) {
if (capture_cache.animation.is_null()) {
return;
}
capture_cache.remain -= p_delta * capture_cache.step;
if (Animation::is_less_or_equal_approx(capture_cache.remain, 0)) {
capture_cache.clear();
return;
}
real_t weight = Tween::run_equation(capture_cache.trans_type, capture_cache.ease_type, capture_cache.remain, 0.0, 1.0, 1.0);
// Blend with other animations.
real_t inv = 1.0 - weight;
for (AnimationInstance &ai : animation_instances) {
ai.playback_info.weight *= inv;
}
// Build capture animation instance.
AnimationData ad;
ad.animation = capture_cache.animation;
PlaybackInfo pi;
pi.weight = weight;
AnimationInstance ai;
ai.animation_data = ad;
ai.playback_info = pi;
animation_instances.push_back(ai);
}
void AnimationMixer::_blend_calc_total_weight() {
for (const AnimationInstance &ai : animation_instances) {
Ref<Animation> a = ai.animation_data.animation;
real_t weight = ai.playback_info.weight;
const real_t *track_weights_ptr = ai.playback_info.track_weights.ptr();
int track_weights_count = ai.playback_info.track_weights.size();
static LocalVector<Animation::TypeHash> processed_hashes;
processed_hashes.clear();
const Vector<Animation::Track *> tracks = a->get_tracks();
for (const Animation::Track *animation_track : tracks) {
if (!animation_track->enabled) {
continue;
}
Animation::TypeHash thash = animation_track->thash;
TrackCache **track_ptr = track_cache.getptr(thash);
if (track_ptr == nullptr || processed_hashes.has(thash)) {
// No path, but avoid error spamming.
// Or, there is the case different track type with same path; These can be distinguished by hash. So don't add the weight doubly.
continue;
}
TrackCache *track = *track_ptr;
int blend_idx = track_map[track->path];
ERR_CONTINUE(blend_idx < 0 || blend_idx >= track_count);
real_t blend = blend_idx < track_weights_count ? track_weights_ptr[blend_idx] * weight : weight;
track->total_weight += blend;
processed_hashes.push_back(thash);
}
}
}
void AnimationMixer::_blend_process(double p_delta, bool p_update_only) {
// Apply value/transform/blend/bezier blends to track caches and execute method/audio/animation tracks.
#ifdef TOOLS_ENABLED
bool can_call = is_inside_tree() && !Engine::get_singleton()->is_editor_hint();
#endif // TOOLS_ENABLED
for (const AnimationInstance &ai : animation_instances) {
Ref<Animation> a = ai.animation_data.animation;
double time = ai.playback_info.time;
double delta = ai.playback_info.delta;
double start = ai.playback_info.start;
double end = ai.playback_info.end;
bool seeked = ai.playback_info.seeked;
Animation::LoopedFlag looped_flag = ai.playback_info.looped_flag;
bool is_external_seeking = ai.playback_info.is_external_seeking;
real_t weight = ai.playback_info.weight;
const real_t *track_weights_ptr = ai.playback_info.track_weights.ptr();
int track_weights_count = ai.playback_info.track_weights.size();
bool backward = signbit(delta); // This flag is used by the root motion calculates or detecting the end of audio stream.
bool seeked_backward = signbit(p_delta);
#ifndef _3D_DISABLED
bool calc_root = !seeked || is_external_seeking;
#endif // _3D_DISABLED
const Vector<Animation::Track *> tracks = a->get_tracks();
Animation::Track *const *tracks_ptr = tracks.ptr();
real_t a_length = a->get_length();
int count = tracks.size();
for (int i = 0; i < count; i++) {
const Animation::Track *animation_track = tracks_ptr[i];
if (!animation_track->enabled) {
continue;
}
Animation::TypeHash thash = animation_track->thash;
TrackCache **track_ptr = track_cache.getptr(thash);
if (track_ptr == nullptr) {
continue; // No path, but avoid error spamming.
}
TrackCache *track = *track_ptr;
int *blend_idx_ptr = track_map.getptr(track->path);
ERR_CONTINUE(blend_idx_ptr == nullptr);
int blend_idx = *blend_idx_ptr;
ERR_CONTINUE(blend_idx < 0 || blend_idx >= track_count);
real_t blend = blend_idx < track_weights_count ? track_weights_ptr[blend_idx] * weight : weight;
if (!deterministic) {
// If non-deterministic, do normalization.
// It would be better to make this if statement outside the for loop, but come here since too much code...
if (Math::is_zero_approx(track->total_weight)) {
continue;
}
blend = blend / track->total_weight;
}
Animation::TrackType ttype = animation_track->type;
track->root_motion = root_motion_track == animation_track->path;
switch (ttype) {
case Animation::TYPE_POSITION_3D: {
#ifndef _3D_DISABLED
if (Math::is_zero_approx(blend)) {
continue; // Nothing to blend.
}
TrackCacheTransform *t = static_cast<TrackCacheTransform *>(track);
if (track->root_motion && calc_root) {
double prev_time = time - delta;
if (!backward) {
if (Animation::is_less_approx(prev_time, start)) {
switch (a->get_loop_mode()) {
case Animation::LOOP_NONE: {
prev_time = start;
} break;
case Animation::LOOP_LINEAR: {
prev_time = Math::fposmod(prev_time - start, end - start) + start;
} break;
case Animation::LOOP_PINGPONG: {
prev_time = Math::pingpong(prev_time - start, end - start) + start;
} break;
default:
break;
}
}
} else {
if (Animation::is_greater_approx(prev_time, end)) {
switch (a->get_loop_mode()) {
case Animation::LOOP_NONE: {
prev_time = end;
} break;
case Animation::LOOP_LINEAR: {
prev_time = Math::fposmod(prev_time - start, end - start) + start;
} break;
case Animation::LOOP_PINGPONG: {
prev_time = Math::pingpong(prev_time - start, end - start) + start;
} break;
default:
break;
}
}
}
Vector3 loc[2];
if (!backward) {
if (Animation::is_greater_approx(prev_time, time)) {
Error err = a->try_position_track_interpolate(i, prev_time, &loc[0]);
if (err != OK) {
continue;
}
loc[0] = post_process_key_value(a, i, loc[0], t->object_id, t->bone_idx);
a->try_position_track_interpolate(i, end, &loc[1]);
loc[1] = post_process_key_value(a, i, loc[1], t->object_id, t->bone_idx);
root_motion_cache.loc += (loc[1] - loc[0]) * blend;
prev_time = start;
}
} else {
if (Animation::is_less_approx(prev_time, time)) {
Error err = a->try_position_track_interpolate(i, prev_time, &loc[0]);
if (err != OK) {
continue;
}
loc[0] = post_process_key_value(a, i, loc[0], t->object_id, t->bone_idx);
a->try_position_track_interpolate(i, start, &loc[1]);
loc[1] = post_process_key_value(a, i, loc[1], t->object_id, t->bone_idx);
root_motion_cache.loc += (loc[1] - loc[0]) * blend;
prev_time = end;
}
}
Error err = a->try_position_track_interpolate(i, prev_time, &loc[0]);
if (err != OK) {
continue;
}
loc[0] = post_process_key_value(a, i, loc[0], t->object_id, t->bone_idx);
a->try_position_track_interpolate(i, time, &loc[1]);
loc[1] = post_process_key_value(a, i, loc[1], t->object_id, t->bone_idx);
root_motion_cache.loc += (loc[1] - loc[0]) * blend;
prev_time = !backward ? start : end;
}
{
Vector3 loc;
Error err = a->try_position_track_interpolate(i, time, &loc);
if (err != OK) {
continue;
}
loc = post_process_key_value(a, i, loc, t->object_id, t->bone_idx);
t->loc += (loc - t->init_loc) * blend;
}
#endif // _3D_DISABLED
} break;
case Animation::TYPE_ROTATION_3D: {
#ifndef _3D_DISABLED
if (Math::is_zero_approx(blend)) {
continue; // Nothing to blend.
}
TrackCacheTransform *t = static_cast<TrackCacheTransform *>(track);
if (track->root_motion && calc_root) {
double prev_time = time - delta;
if (!backward) {
if (Animation::is_less_approx(prev_time, start)) {
switch (a->get_loop_mode()) {
case Animation::LOOP_NONE: {
prev_time = start;
} break;
case Animation::LOOP_LINEAR: {
prev_time = Math::fposmod(prev_time - start, end - start) + start;
} break;
case Animation::LOOP_PINGPONG: {
prev_time = Math::pingpong(prev_time - start, end - start) + start;
} break;
default:
break;
}
}
} else {
if (Animation::is_greater_approx(prev_time, end)) {
switch (a->get_loop_mode()) {
case Animation::LOOP_NONE: {
prev_time = end;
} break;
case Animation::LOOP_LINEAR: {
prev_time = Math::fposmod(prev_time - start, end - start) + start;
} break;
case Animation::LOOP_PINGPONG: {
prev_time = Math::pingpong(prev_time - start, end - start) + start;
} break;
default:
break;
}
}
}
Quaternion rot[2];
if (!backward) {
if (Animation::is_greater_approx(prev_time, time)) {
Error err = a->try_rotation_track_interpolate(i, prev_time, &rot[0]);
if (err != OK) {
continue;
}
rot[0] = post_process_key_value(a, i, rot[0], t->object_id, t->bone_idx);
a->try_rotation_track_interpolate(i, end, &rot[1]);
rot[1] = post_process_key_value(a, i, rot[1], t->object_id, t->bone_idx);
root_motion_cache.rot = (root_motion_cache.rot * Quaternion().slerp(rot[0].inverse() * rot[1], blend)).normalized();
prev_time = start;
}
} else {
if (Animation::is_less_approx(prev_time, time)) {
Error err = a->try_rotation_track_interpolate(i, prev_time, &rot[0]);
if (err != OK) {
continue;
}
rot[0] = post_process_key_value(a, i, rot[0], t->object_id, t->bone_idx);
a->try_rotation_track_interpolate(i, start, &rot[1]);
root_motion_cache.rot = (root_motion_cache.rot * Quaternion().slerp(rot[0].inverse() * rot[1], blend)).normalized();
prev_time = end;
}
}
Error err = a->try_rotation_track_interpolate(i, prev_time, &rot[0]);
if (err != OK) {
continue;
}
rot[0] = post_process_key_value(a, i, rot[0], t->object_id, t->bone_idx);
a->try_rotation_track_interpolate(i, time, &rot[1]);
rot[1] = post_process_key_value(a, i, rot[1], t->object_id, t->bone_idx);
root_motion_cache.rot = (root_motion_cache.rot * Quaternion().slerp(rot[0].inverse() * rot[1], blend)).normalized();
prev_time = !backward ? start : end;
}
{
Quaternion rot;
Error err = a->try_rotation_track_interpolate(i, time, &rot);
if (err != OK) {
continue;
}
rot = post_process_key_value(a, i, rot, t->object_id, t->bone_idx);
t->rot = (t->rot * Quaternion().slerp(t->init_rot.inverse() * rot, blend)).normalized();
}
#endif // _3D_DISABLED
} break;
case Animation::TYPE_SCALE_3D: {
#ifndef _3D_DISABLED
if (Math::is_zero_approx(blend)) {
continue; // Nothing to blend.
}
TrackCacheTransform *t = static_cast<TrackCacheTransform *>(track);
if (track->root_motion && calc_root) {
double prev_time = time - delta;
if (!backward) {
if (Animation::is_less_approx(prev_time, start)) {
switch (a->get_loop_mode()) {
case Animation::LOOP_NONE: {
prev_time = start;
} break;
case Animation::LOOP_LINEAR: {
prev_time = Math::fposmod(prev_time - start, end - start) + start;
} break;
case Animation::LOOP_PINGPONG: {
prev_time = Math::pingpong(prev_time - start, end - start) + start;
} break;
default:
break;
}
}
} else {
if (Animation::is_greater_approx(prev_time, end)) {
switch (a->get_loop_mode()) {
case Animation::LOOP_NONE: {
prev_time = end;
} break;
case Animation::LOOP_LINEAR: {
prev_time = Math::fposmod(prev_time - start, end - start) + start;
} break;
case Animation::LOOP_PINGPONG: {
prev_time = Math::pingpong(prev_time - start, end - start) + start;
} break;
default:
break;
}
}
}
Vector3 scale[2];
if (!backward) {
if (Animation::is_greater_approx(prev_time, time)) {
Error err = a->try_scale_track_interpolate(i, prev_time, &scale[0]);
if (err != OK) {
continue;
}
scale[0] = post_process_key_value(a, i, scale[0], t->object_id, t->bone_idx);
a->try_scale_track_interpolate(i, end, &scale[1]);
root_motion_cache.scale += (scale[1] - scale[0]) * blend;
scale[1] = post_process_key_value(a, i, scale[1], t->object_id, t->bone_idx);
prev_time = start;
}
} else {
if (Animation::is_less_approx(prev_time, time)) {
Error err = a->try_scale_track_interpolate(i, prev_time, &scale[0]);
if (err != OK) {
continue;
}
scale[0] = post_process_key_value(a, i, scale[0], t->object_id, t->bone_idx);
a->try_scale_track_interpolate(i, start, &scale[1]);
scale[1] = post_process_key_value(a, i, scale[1], t->object_id, t->bone_idx);
root_motion_cache.scale += (scale[1] - scale[0]) * blend;
prev_time = end;
}
}
Error err = a->try_scale_track_interpolate(i, prev_time, &scale[0]);
if (err != OK) {
continue;
}
scale[0] = post_process_key_value(a, i, scale[0], t->object_id, t->bone_idx);
a->try_scale_track_interpolate(i, time, &scale[1]);
scale[1] = post_process_key_value(a, i, scale[1], t->object_id, t->bone_idx);
root_motion_cache.scale += (scale[1] - scale[0]) * blend;
prev_time = !backward ? start : end;
}
{
Vector3 scale;
Error err = a->try_scale_track_interpolate(i, time, &scale);
if (err != OK) {
continue;
}
scale = post_process_key_value(a, i, scale, t->object_id, t->bone_idx);
t->scale += (scale - t->init_scale) * blend;
}
#endif // _3D_DISABLED
} break;
case Animation::TYPE_BLEND_SHAPE: {
#ifndef _3D_DISABLED
if (Math::is_zero_approx(blend)) {
continue; // Nothing to blend.
}
TrackCacheBlendShape *t = static_cast<TrackCacheBlendShape *>(track);
float value;
Error err = a->try_blend_shape_track_interpolate(i, time, &value);
//ERR_CONTINUE(err!=OK); //used for testing, should be removed
if (err != OK) {
continue;
}
value = post_process_key_value(a, i, value, t->object_id, t->shape_index);
t->value += (value - t->init_value) * blend;
#endif // _3D_DISABLED
} break;
case Animation::TYPE_BEZIER:
case Animation::TYPE_VALUE: {
if (Math::is_zero_approx(blend)) {
continue; // Nothing to blend.
}
TrackCacheValue *t = static_cast<TrackCacheValue *>(track);
bool is_value = ttype == Animation::TYPE_VALUE;
bool is_discrete = is_value && a->value_track_get_update_mode(i) == Animation::UPDATE_DISCRETE;
bool force_continuous = callback_mode_discrete == ANIMATION_CALLBACK_MODE_DISCRETE_FORCE_CONTINUOUS;
if (!is_discrete || force_continuous) {
t->use_continuous = true;
Variant value;
if (t->is_variant_interpolatable) {
value = is_value ? a->value_track_interpolate(i, time, is_discrete && force_continuous ? backward : false) : Variant(a->bezier_track_interpolate(i, time));
value = post_process_key_value(a, i, value, t->object_id);
if (value == Variant()) {
continue;
}
} else {
// Discrete track sets the value in the current _blend_process() function,
// but Force Continuous track does not set the value here because the value must be set in the _blend_apply() function later.
int idx = a->track_find_key(i, time, Animation::FIND_MODE_NEAREST, false, backward);
if (idx < 0) {
continue;
}
value = a->track_get_key_value(i, idx);
value = post_process_key_value(a, i, value, t->object_id);
if (value == Variant()) {
continue;
}
t->value = value;
continue;
}
// Special case for angle interpolation.
if (t->is_using_angle) {
// For blending consistency, it prevents rotation of more than 180 degrees from init_value.
// This is the same as for Quaternion blends.
float rot_a = t->value;
float rot_b = value;
float rot_init = t->init_value;
rot_a = Math::fposmod(rot_a, (float)Math_TAU);
rot_b = Math::fposmod(rot_b, (float)Math_TAU);
rot_init = Math::fposmod(rot_init, (float)Math_TAU);
if (rot_init < Math_PI) {
rot_a = rot_a > rot_init + Math_PI ? rot_a - Math_TAU : rot_a;
rot_b = rot_b > rot_init + Math_PI ? rot_b - Math_TAU : rot_b;
} else {
rot_a = rot_a < rot_init - Math_PI ? rot_a + Math_TAU : rot_a;
rot_b = rot_b < rot_init - Math_PI ? rot_b + Math_TAU : rot_b;
}
t->value = Math::fposmod(rot_a + (rot_b - rot_init) * (float)blend, (float)Math_TAU);
} else {
value = Animation::cast_to_blendwise(value);
if (t->init_value.is_array()) {
t->element_size = MAX(t->element_size.operator int(), (value.operator Array()).size());
} else if (t->init_value.is_string()) {
real_t length = Animation::subtract_variant((real_t)(value.operator Array()).size(), (real_t)(t->init_value.operator String()).length());
t->element_size = Animation::blend_variant(t->element_size, length, blend);
}
value = Animation::subtract_variant(value, Animation::cast_to_blendwise(t->init_value));
t->value = Animation::blend_variant(t->value, value, blend);
}
} else {
if (seeked) {
int idx = a->track_find_key(i, time, is_external_seeking ? Animation::FIND_MODE_NEAREST : Animation::FIND_MODE_EXACT, false, seeked_backward);
if (idx < 0) {
continue;
}
t->use_discrete = true;
Variant value = a->track_get_key_value(i, idx);
value = post_process_key_value(a, i, value, t->object_id);
Object *t_obj = ObjectDB::get_instance(t->object_id);
if (t_obj) {
t_obj->set_indexed(t->subpath, value);
}
} else {
List<int> indices;
a->track_get_key_indices_in_range(i, time, delta, &indices, looped_flag);
for (int &F : indices) {
t->use_discrete = true;
Variant value = a->track_get_key_value(i, F);
value = post_process_key_value(a, i, value, t->object_id);
Object *t_obj = ObjectDB::get_instance(t->object_id);
if (t_obj) {
t_obj->set_indexed(t->subpath, value);
}
}
}
}
} break;
case Animation::TYPE_METHOD: {
#ifdef TOOLS_ENABLED
if (!can_call) {
continue;
}
#endif // TOOLS_ENABLED
if (p_update_only || Math::is_zero_approx(blend)) {
continue;
}
TrackCacheMethod *t = static_cast<TrackCacheMethod *>(track);
if (seeked) {
int idx = a->track_find_key(i, time, is_external_seeking ? Animation::FIND_MODE_NEAREST : Animation::FIND_MODE_EXACT, true);
if (idx < 0) {
continue;
}
StringName method = a->method_track_get_name(i, idx);
Vector<Variant> params = a->method_track_get_params(i, idx);
_call_object(t->object_id, method, params, callback_mode_method == ANIMATION_CALLBACK_MODE_METHOD_DEFERRED);
} else {
List<int> indices;
a->track_get_key_indices_in_range(i, time, delta, &indices, looped_flag);
for (int &F : indices) {
StringName method = a->method_track_get_name(i, F);
Vector<Variant> params = a->method_track_get_params(i, F);
_call_object(t->object_id, method, params, callback_mode_method == ANIMATION_CALLBACK_MODE_METHOD_DEFERRED);
}
}
} break;
case Animation::TYPE_AUDIO: {
// The end of audio should be observed even if the blend value is 0, build up the information and store to the cache for that.
TrackCacheAudio *t = static_cast<TrackCacheAudio *>(track);
Object *t_obj = ObjectDB::get_instance(t->object_id);
Node *asp = t_obj ? Object::cast_to<Node>(t_obj) : nullptr;
if (!t_obj || !asp) {
t->playing_streams.clear();
continue;
}
ObjectID oid = a->get_instance_id();
if (!t->playing_streams.has(oid)) {
t->playing_streams[oid] = PlayingAudioTrackInfo();
}
PlayingAudioTrackInfo &track_info = t->playing_streams[oid];
track_info.length = a_length;
track_info.time = time;
track_info.volume += blend;
track_info.loop = a->get_loop_mode() != Animation::LOOP_NONE;
track_info.backward = backward;
track_info.use_blend = a->audio_track_is_use_blend(i);
HashMap<int, PlayingAudioStreamInfo> &map = track_info.stream_info;
// Main process to fire key is started from here.
if (p_update_only) {
continue;
}
// Find stream.
int idx = -1;
if (seeked) {
// Audio key may be playbacked from the middle, should use FIND_MODE_NEAREST.
// Then, check the current playing stream to prevent to playback doubly.
idx = a->track_find_key(i, time, Animation::FIND_MODE_NEAREST, true);
// Discard previous stream when seeking.
if (map.has(idx)) {
t->audio_stream_playback->stop_stream(map[idx].index);
map.erase(idx);
}
} else {
List<int> to_play;
a->track_get_key_indices_in_range(i, time, delta, &to_play, looped_flag);
if (to_play.size()) {
idx = to_play.back()->get();
}
}
if (idx < 0) {
continue;
}
// Play stream.
Ref<AudioStream> stream = a->audio_track_get_key_stream(i, idx);
if (stream.is_valid()) {
double start_ofs = a->audio_track_get_key_start_offset(i, idx);
double end_ofs = a->audio_track_get_key_end_offset(i, idx);
double len = stream->get_length();
if (seeked) {
start_ofs += time - a->track_get_key_time(i, idx);
}
if (t_obj->call(SNAME("get_stream")) != t->audio_stream) {
t_obj->call(SNAME("set_stream"), t->audio_stream);
t->audio_stream_playback.unref();
if (!playing_audio_stream_players.has(asp)) {
playing_audio_stream_players.push_back(asp);
}
}
if (!t_obj->call(SNAME("is_playing"))) {
t_obj->call(SNAME("play"));
}
if (!t_obj->call(SNAME("has_stream_playback"))) {
t->audio_stream_playback.unref();
continue;
}
if (t->audio_stream_playback.is_null()) {
t->audio_stream_playback = t_obj->call(SNAME("get_stream_playback"));
}
if (t_obj->call(SNAME("get_is_sample"))) {
if (t->audio_stream_playback->get_sample_playback().is_valid()) {
AudioServer::get_singleton()->stop_sample_playback(t->audio_stream_playback->get_sample_playback());
}
Ref<AudioSamplePlayback> sample_playback;
sample_playback.instantiate();
sample_playback->stream = stream;
t->audio_stream_playback->set_sample_playback(sample_playback);
AudioServer::get_singleton()->start_sample_playback(sample_playback);
continue;
}
PlayingAudioStreamInfo pasi;
pasi.index = t->audio_stream_playback->play_stream(stream, start_ofs, 0, 1.0, t->playback_type, t->bus);
pasi.start = time;
if (len && Animation::is_greater_approx(end_ofs, 0)) { // Force an end at a time.
pasi.len = len - start_ofs - end_ofs;
} else {
pasi.len = 0;
}
map[idx] = pasi;
}
} break;
case Animation::TYPE_ANIMATION: {
if (Math::is_zero_approx(blend)) {
continue;
}
TrackCacheAnimation *t = static_cast<TrackCacheAnimation *>(track);
Object *t_obj = ObjectDB::get_instance(t->object_id);
if (!t_obj) {
continue;
}
AnimationPlayer *player2 = Object::cast_to<AnimationPlayer>(t_obj);
if (!player2) {
continue;
}
// TODO: Make it possible to embed section info in animation track keys.
if (seeked) {
// Seek.
int idx = a->track_find_key(i, time, Animation::FIND_MODE_NEAREST, true);
if (idx < 0) {
continue;
}
double pos = a->track_get_key_time(i, idx);
StringName anim_name = a->animation_track_get_key_animation(i, idx);
if (String(anim_name) == "[stop]" || !player2->has_animation(anim_name)) {
continue;
}
Ref<Animation> anim = player2->get_animation(anim_name);
double at_anim_pos = start;
switch (anim->get_loop_mode()) {
case Animation::LOOP_NONE: {
if (!is_external_seeking && ((!backward && Animation::is_greater_or_equal_approx(time, pos + end)) || (backward && Animation::is_less_or_equal_approx(time, pos + start)))) {
continue; // Do nothing if current time is outside of length when started.
}
at_anim_pos = MIN(end, time - pos); // Seek to end.
} break;
case Animation::LOOP_LINEAR: {
at_anim_pos = Math::fposmod(time - pos - start, end - start) + start; // Seek to loop.
} break;
case Animation::LOOP_PINGPONG: {
at_anim_pos = Math::pingpong(time - pos - start, end - start) + start;
} break;
default:
break;
}
if (player2->is_playing() || !is_external_seeking) {
player2->seek(at_anim_pos, false, p_update_only);
player2->play(anim_name);
t->playing = true;
playing_caches.insert(t);
} else {
player2->set_assigned_animation(anim_name);
player2->seek(at_anim_pos, true, p_update_only);
}
} else {
// Find stuff to play.
List<int> to_play;
a->track_get_key_indices_in_range(i, time, delta, &to_play, looped_flag);
if (to_play.size()) {
int idx = to_play.back()->get();
StringName anim_name = a->animation_track_get_key_animation(i, idx);
if (String(anim_name) == "[stop]" || !player2->has_animation(anim_name)) {
if (playing_caches.has(t)) {
playing_caches.erase(t);
player2->stop();
t->playing = false;
}
} else {
player2->play(anim_name);
t->playing = true;
playing_caches.insert(t);
}
}
}
} break;
}
}
}
is_GDVIRTUAL_CALL_post_process_key_value = true;
}
void AnimationMixer::_blend_apply() {
// Finally, set the tracks.
for (const KeyValue<Animation::TypeHash, TrackCache *> &K : track_cache) {
TrackCache *track = K.value;
bool is_zero_amount = Math::is_zero_approx(track->total_weight);
if (!deterministic && is_zero_amount) {
continue;
}
switch (track->type) {
case Animation::TYPE_POSITION_3D: {
#ifndef _3D_DISABLED
TrackCacheTransform *t = static_cast<TrackCacheTransform *>(track);
if (t->root_motion) {
root_motion_position = root_motion_cache.loc;
root_motion_rotation = root_motion_cache.rot;
root_motion_scale = root_motion_cache.scale - Vector3(1, 1, 1);
root_motion_position_accumulator = t->loc;
root_motion_rotation_accumulator = t->rot;
root_motion_scale_accumulator = t->scale;
} else if (t->skeleton_id.is_valid() && t->bone_idx >= 0) {
Skeleton3D *t_skeleton = Object::cast_to<Skeleton3D>(ObjectDB::get_instance(t->skeleton_id));
if (!t_skeleton) {
return;
}
if (t->loc_used) {
t_skeleton->set_bone_pose_position(t->bone_idx, t->loc);
}
if (t->rot_used) {
t_skeleton->set_bone_pose_rotation(t->bone_idx, t->rot);
}
if (t->scale_used) {
t_skeleton->set_bone_pose_scale(t->bone_idx, t->scale);
}
} else if (!t->skeleton_id.is_valid()) {
Node3D *t_node_3d = Object::cast_to<Node3D>(ObjectDB::get_instance(t->object_id));
if (!t_node_3d) {
return;
}
if (t->loc_used) {
t_node_3d->set_position(t->loc);
}
if (t->rot_used) {
t_node_3d->set_rotation(t->rot.get_euler());
}
if (t->scale_used) {
t_node_3d->set_scale(t->scale);
}
}
#endif // _3D_DISABLED
} break;
case Animation::TYPE_BLEND_SHAPE: {
#ifndef _3D_DISABLED
TrackCacheBlendShape *t = static_cast<TrackCacheBlendShape *>(track);
MeshInstance3D *t_mesh_3d = Object::cast_to<MeshInstance3D>(ObjectDB::get_instance(t->object_id));
if (t_mesh_3d) {
t_mesh_3d->set_blend_shape_value(t->shape_index, t->value);
}
#endif // _3D_DISABLED
} break;
case Animation::TYPE_VALUE: {
TrackCacheValue *t = static_cast<TrackCacheValue *>(track);
if (callback_mode_discrete == ANIMATION_CALLBACK_MODE_DISCRETE_FORCE_CONTINUOUS) {
t->is_init = false; // Always update in Force Continuous.
} else if (!t->use_continuous && (t->use_discrete || !deterministic)) {
t->is_init = true; // If there is no continuous value and only disctere value is applied or just started, don't RESET.
}
if ((t->is_init && (is_zero_amount || !t->use_continuous)) ||
(callback_mode_discrete != ANIMATION_CALLBACK_MODE_DISCRETE_FORCE_CONTINUOUS &&
!is_zero_amount &&
callback_mode_discrete == ANIMATION_CALLBACK_MODE_DISCRETE_DOMINANT &&
t->use_discrete)) {
break; // Don't overwrite the value set by UPDATE_DISCRETE.
}
if (callback_mode_discrete != ANIMATION_CALLBACK_MODE_DISCRETE_FORCE_CONTINUOUS) {
t->is_init = !t->use_continuous; // If there is no Continuous in non-Force Continuous type, it means RESET.
}
// Trim unused elements if init array/string is not blended.
if (t->value.is_array()) {
int actual_blended_size = (int)Math::round(Math::abs(t->element_size.operator real_t()));
if (actual_blended_size < (t->value.operator Array()).size()) {
real_t abs_weight = Math::abs(track->total_weight);
if (abs_weight >= 1.0) {
(t->value.operator Array()).resize(actual_blended_size);
} else if (t->init_value.is_string()) {
(t->value.operator Array()).resize(Animation::interpolate_variant((t->init_value.operator String()).length(), actual_blended_size, abs_weight));
}
}
}
Object *t_obj = ObjectDB::get_instance(t->object_id);
if (t_obj) {
t_obj->set_indexed(t->subpath, Animation::cast_from_blendwise(t->value, t->init_value.get_type()));
}
} break;
case Animation::TYPE_AUDIO: {
TrackCacheAudio *t = static_cast<TrackCacheAudio *>(track);
// Audio ending process.
LocalVector<ObjectID> erase_maps;
for (KeyValue<ObjectID, PlayingAudioTrackInfo> &L : t->playing_streams) {
PlayingAudioTrackInfo &track_info = L.value;
float db = Math::linear_to_db(track_info.use_blend ? track_info.volume : 1.0);
LocalVector<int> erase_streams;
HashMap<int, PlayingAudioStreamInfo> &map = track_info.stream_info;
for (const KeyValue<int, PlayingAudioStreamInfo> &M : map) {
PlayingAudioStreamInfo pasi = M.value;
bool stop = false;
if (!t->audio_stream_playback->is_stream_playing(pasi.index)) {
stop = true;
}
if (!track_info.loop) {
if (!track_info.backward) {
if (Animation::is_less_approx(track_info.time, pasi.start)) {
stop = true;
}
} else if (track_info.backward) {
if (Animation::is_greater_approx(track_info.time, pasi.start)) {
stop = true;
}
}
}
if (Animation::is_greater_approx(pasi.len, 0)) {
double len = 0.0;
if (!track_info.backward) {
len = Animation::is_greater_approx(pasi.start, track_info.time) ? (track_info.length - pasi.start) + track_info.time : track_info.time - pasi.start;
} else {
len = Animation::is_less_approx(pasi.start, track_info.time) ? (track_info.length - track_info.time) + pasi.start : pasi.start - track_info.time;
}
if (Animation::is_greater_approx(len, pasi.len)) {
stop = true;
}
}
if (stop) {
// Time to stop.
t->audio_stream_playback->stop_stream(pasi.index);
erase_streams.push_back(M.key);
} else {
t->audio_stream_playback->set_stream_volume(pasi.index, db);
}
}
for (uint32_t erase_idx = 0; erase_idx < erase_streams.size(); erase_idx++) {
map.erase(erase_streams[erase_idx]);
}
if (map.size() == 0) {
erase_maps.push_back(L.key);
}
}
for (uint32_t erase_idx = 0; erase_idx < erase_maps.size(); erase_idx++) {
t->playing_streams.erase(erase_maps[erase_idx]);
}
} break;
default: {
} // The rest don't matter.
}
}
}
void AnimationMixer::_call_object(ObjectID p_object_id, const StringName &p_method, const Vector<Variant> &p_params, bool p_deferred) {
// Separate function to use alloca() more efficiently
const Variant **argptrs = (const Variant **)alloca(sizeof(Variant *) * p_params.size());
const Variant *args = p_params.ptr();
uint32_t argcount = p_params.size();
for (uint32_t i = 0; i < argcount; i++) {
argptrs[i] = &args[i];
}
Object *t_obj = ObjectDB::get_instance(p_object_id);
if (!t_obj) {
return;
}
if (p_deferred) {
Callable(t_obj, p_method).call_deferredp(argptrs, argcount);
} else {
Callable::CallError ce;
t_obj->callp(p_method, argptrs, argcount, ce);
}
}
void AnimationMixer::make_animation_instance(const StringName &p_name, const PlaybackInfo p_playback_info) {
ERR_FAIL_COND(!has_animation(p_name));
AnimationData ad;
ad.name = p_name;
ad.animation = get_animation(p_name);
ad.animation_library = find_animation_library(ad.animation);
AnimationInstance ai;
ai.animation_data = ad;
ai.playback_info = p_playback_info;
animation_instances.push_back(ai);
}
void AnimationMixer::clear_animation_instances() {
animation_instances.clear();
}
void AnimationMixer::advance(double p_time) {
_process_animation(p_time);
}
void AnimationMixer::clear_caches() {
_clear_caches();
}
/* -------------------------------------------- */
/* -- Root motion ----------------------------- */
/* -------------------------------------------- */
void AnimationMixer::set_root_motion_track(const NodePath &p_track) {
root_motion_track = p_track;
}
NodePath AnimationMixer::get_root_motion_track() const {
return root_motion_track;
}
Vector3 AnimationMixer::get_root_motion_position() const {
return root_motion_position;
}
Quaternion AnimationMixer::get_root_motion_rotation() const {
return root_motion_rotation;
}
Vector3 AnimationMixer::get_root_motion_scale() const {
return root_motion_scale;
}
Vector3 AnimationMixer::get_root_motion_position_accumulator() const {
return root_motion_position_accumulator;
}
Quaternion AnimationMixer::get_root_motion_rotation_accumulator() const {
return root_motion_rotation_accumulator;
}
Vector3 AnimationMixer::get_root_motion_scale_accumulator() const {
return root_motion_scale_accumulator;
}
/* -------------------------------------------- */
/* -- Reset on save --------------------------- */
/* -------------------------------------------- */
void AnimationMixer::set_reset_on_save_enabled(bool p_enabled) {
reset_on_save = p_enabled;
}
bool AnimationMixer::is_reset_on_save_enabled() const {
return reset_on_save;
}
bool AnimationMixer::can_apply_reset() const {
return has_animation(SceneStringName(RESET));
}
void AnimationMixer::_build_backup_track_cache() {
for (const KeyValue<Animation::TypeHash, TrackCache *> &K : track_cache) {
TrackCache *track = K.value;
track->total_weight = 1.0;
switch (track->type) {
case Animation::TYPE_POSITION_3D: {
#ifndef _3D_DISABLED
TrackCacheTransform *t = static_cast<TrackCacheTransform *>(track);
if (t->root_motion) {
// Do nothing.
} else if (t->skeleton_id.is_valid() && t->bone_idx >= 0) {
Skeleton3D *t_skeleton = Object::cast_to<Skeleton3D>(ObjectDB::get_instance(t->skeleton_id));
if (!t_skeleton) {
return;
}
if (t->loc_used) {
t->loc = t_skeleton->get_bone_pose_position(t->bone_idx);
}
if (t->rot_used) {
t->rot = t_skeleton->get_bone_pose_rotation(t->bone_idx);
}
if (t->scale_used) {
t->scale = t_skeleton->get_bone_pose_scale(t->bone_idx);
}
} else if (!t->skeleton_id.is_valid()) {
Node3D *t_node_3d = Object::cast_to<Node3D>(ObjectDB::get_instance(t->object_id));
if (!t_node_3d) {
return;
}
if (t->loc_used) {
t->loc = t_node_3d->get_position();
}
if (t->rot_used) {
t->rot = t_node_3d->get_quaternion();
}
if (t->scale_used) {
t->scale = t_node_3d->get_scale();
}
}
#endif // _3D_DISABLED
} break;
case Animation::TYPE_BLEND_SHAPE: {
#ifndef _3D_DISABLED
TrackCacheBlendShape *t = static_cast<TrackCacheBlendShape *>(track);
MeshInstance3D *t_mesh_3d = Object::cast_to<MeshInstance3D>(ObjectDB::get_instance(t->object_id));
if (t_mesh_3d) {
t->value = t_mesh_3d->get_blend_shape_value(t->shape_index);
}
#endif // _3D_DISABLED
} break;
case Animation::TYPE_VALUE: {
TrackCacheValue *t = static_cast<TrackCacheValue *>(track);
Object *t_obj = ObjectDB::get_instance(t->object_id);
if (t_obj) {
t->value = Animation::cast_to_blendwise(t_obj->get_indexed(t->subpath));
}
t->use_continuous = true;
t->use_discrete = false;
if (t->init_value.is_array()) {
t->element_size = MAX(t->element_size.operator int(), (t->value.operator Array()).size());
} else if (t->init_value.is_string()) {
t->element_size = (real_t)(t->value.operator Array()).size();
}
} break;
case Animation::TYPE_AUDIO: {
TrackCacheAudio *t = static_cast<TrackCacheAudio *>(track);
Object *t_obj = ObjectDB::get_instance(t->object_id);
if (t_obj) {
Node *asp = Object::cast_to<Node>(t_obj);
if (asp) {
asp->call(SNAME("set_stream"), Ref<AudioStream>());
}
}
} break;
default: {
} // The rest don't matter.
}
}
}
Ref<AnimatedValuesBackup> AnimationMixer::make_backup() {
Ref<AnimatedValuesBackup> backup;
backup.instantiate();
Ref<Animation> reset_anim = animation_set[SceneStringName(RESET)].animation;
ERR_FAIL_COND_V(reset_anim.is_null(), Ref<AnimatedValuesBackup>());
_blend_init();
PlaybackInfo pi;
pi.time = 0;
pi.delta = 0;
pi.start = 0;
pi.end = reset_anim->get_length();
pi.seeked = true;
pi.weight = 1.0;
make_animation_instance(SceneStringName(RESET), pi);
_build_backup_track_cache();
backup->set_data(track_cache);
clear_animation_instances();
return backup;
}
void AnimationMixer::reset() {
ERR_FAIL_COND(!can_apply_reset());
Ref<Animation> reset_anim = animation_set[SceneStringName(RESET)].animation;
ERR_FAIL_COND(reset_anim.is_null());
Node *root_node_object = get_node_or_null(root_node);
ERR_FAIL_NULL(root_node_object);
AnimationPlayer *aux_player = memnew(AnimationPlayer);
root_node_object->add_child(aux_player);
Ref<AnimationLibrary> al;
al.instantiate();
al->add_animation(SceneStringName(RESET), reset_anim);
aux_player->set_reset_on_save_enabled(false);
aux_player->set_root_node(aux_player->get_path_to(root_node_object));
aux_player->add_animation_library("", al);
aux_player->set_assigned_animation(SceneStringName(RESET));
aux_player->seek(0.0f, true);
aux_player->queue_free();
}
void AnimationMixer::restore(const Ref<AnimatedValuesBackup> &p_backup) {
ERR_FAIL_COND(p_backup.is_null());
track_cache = p_backup->get_data();
_blend_apply();
track_cache = HashMap<Animation::TypeHash, AnimationMixer::TrackCache *>();
cache_valid = false;
}
#ifdef TOOLS_ENABLED
Ref<AnimatedValuesBackup> AnimationMixer::apply_reset(bool p_user_initiated) {
if (!p_user_initiated && dummy) {
return Ref<AnimatedValuesBackup>();
}
ERR_FAIL_COND_V(!can_apply_reset(), Ref<AnimatedValuesBackup>());
Ref<Animation> reset_anim = animation_set[SceneStringName(RESET)].animation;
ERR_FAIL_COND_V(reset_anim.is_null(), Ref<AnimatedValuesBackup>());
Ref<AnimatedValuesBackup> backup_current = make_backup();
if (p_user_initiated) {
EditorUndoRedoManager *ur = EditorUndoRedoManager::get_singleton();
ur->create_action(TTR("Animation Apply Reset"));
ur->add_do_method(this, "_reset");
ur->add_undo_method(this, "_restore", backup_current);
ur->commit_action();
} else {
reset();
}
return backup_current;
}
#endif // TOOLS_ENABLED
/* -------------------------------------------- */
/* -- Capture feature ------------------------- */
/* -------------------------------------------- */
void AnimationMixer::capture(const StringName &p_name, double p_duration, Tween::TransitionType p_trans_type, Tween::EaseType p_ease_type) {
ERR_FAIL_COND(!active);
ERR_FAIL_COND(!has_animation(p_name));
ERR_FAIL_COND(p_duration <= 0);
Ref<Animation> reference_animation = get_animation(p_name);
if (!cache_valid) {
_update_caches(); // Need to retrieve object id.
}
capture_cache.remain = 1.0;
capture_cache.step = 1.0 / p_duration;
capture_cache.trans_type = p_trans_type;
capture_cache.ease_type = p_ease_type;
capture_cache.animation.instantiate();
bool is_valid = false;
for (int i = 0; i < reference_animation->get_track_count(); i++) {
if (!reference_animation->track_is_enabled(i)) {
continue;
}
if (reference_animation->track_get_type(i) == Animation::TYPE_VALUE && reference_animation->value_track_get_update_mode(i) == Animation::UPDATE_CAPTURE) {
TrackCacheValue *t = static_cast<TrackCacheValue *>(track_cache[reference_animation->track_get_type_hash(i)]);
Object *t_obj = ObjectDB::get_instance(t->object_id);
if (t_obj) {
Variant value = t_obj->get_indexed(t->subpath);
int inserted_idx = capture_cache.animation->add_track(Animation::TYPE_VALUE);
capture_cache.animation->track_set_path(inserted_idx, reference_animation->track_get_path(i));
capture_cache.animation->track_insert_key(inserted_idx, 0, value);
capture_cache.animation->value_track_set_update_mode(inserted_idx, Animation::UPDATE_CONTINUOUS);
capture_cache.animation->track_set_interpolation_type(inserted_idx, Animation::INTERPOLATION_LINEAR);
is_valid = true;
}
}
}
if (!is_valid) {
capture_cache.clear();
}
}
/* -------------------------------------------- */
/* -- General functions ----------------------- */
/* -------------------------------------------- */
void AnimationMixer::_node_removed(Node *p_node) {
_clear_caches();
}
void AnimationMixer::_notification(int p_what) {
switch (p_what) {
case NOTIFICATION_ENTER_TREE: {
if (!processing) {
set_physics_process_internal(false);
set_process_internal(false);
}
_clear_caches();
} break;
case NOTIFICATION_INTERNAL_PROCESS: {
if (active && callback_mode_process == ANIMATION_CALLBACK_MODE_PROCESS_IDLE) {
_process_animation(get_process_delta_time());
}
} break;
case NOTIFICATION_INTERNAL_PHYSICS_PROCESS: {
if (active && callback_mode_process == ANIMATION_CALLBACK_MODE_PROCESS_PHYSICS) {
_process_animation(get_physics_process_delta_time());
}
} break;
case NOTIFICATION_EXIT_TREE: {
_clear_caches();
} break;
}
}
#ifdef TOOLS_ENABLED
void AnimationMixer::get_argument_options(const StringName &p_function, int p_idx, List<String> *r_options) const {
const String pf = p_function;
if (p_idx == 0) {
if (pf == "get_animation" || pf == "has_animation") {
List<StringName> al;
get_animation_list(&al);
for (const StringName &name : al) {
r_options->push_back(String(name).quote());
}
} else if (pf == "get_animation_library" || pf == "has_animation_library" || pf == "remove_animation_library" || pf == "rename_animation_library") {
List<StringName> al;
get_animation_library_list(&al);
for (const StringName &name : al) {
r_options->push_back(String(name).quote());
}
}
}
Node::get_argument_options(p_function, p_idx, r_options);
}
#endif
void AnimationMixer::_bind_methods() {
/* ---- Data lists ---- */
ClassDB::bind_method(D_METHOD("add_animation_library", "name", "library"), &AnimationMixer::add_animation_library);
ClassDB::bind_method(D_METHOD("remove_animation_library", "name"), &AnimationMixer::remove_animation_library);
ClassDB::bind_method(D_METHOD("rename_animation_library", "name", "newname"), &AnimationMixer::rename_animation_library);
ClassDB::bind_method(D_METHOD("has_animation_library", "name"), &AnimationMixer::has_animation_library);
ClassDB::bind_method(D_METHOD("get_animation_library", "name"), &AnimationMixer::get_animation_library);
ClassDB::bind_method(D_METHOD("get_animation_library_list"), &AnimationMixer::_get_animation_library_list);
ClassDB::bind_method(D_METHOD("has_animation", "name"), &AnimationMixer::has_animation);
ClassDB::bind_method(D_METHOD("get_animation", "name"), &AnimationMixer::get_animation);
ClassDB::bind_method(D_METHOD("get_animation_list"), &AnimationMixer::_get_animation_list);
/* ---- General settings for animation ---- */
ClassDB::bind_method(D_METHOD("set_active", "active"), &AnimationMixer::set_active);
ClassDB::bind_method(D_METHOD("is_active"), &AnimationMixer::is_active);
ClassDB::bind_method(D_METHOD("set_deterministic", "deterministic"), &AnimationMixer::set_deterministic);
ClassDB::bind_method(D_METHOD("is_deterministic"), &AnimationMixer::is_deterministic);
ClassDB::bind_method(D_METHOD("set_root_node", "path"), &AnimationMixer::set_root_node);
ClassDB::bind_method(D_METHOD("get_root_node"), &AnimationMixer::get_root_node);
ClassDB::bind_method(D_METHOD("set_callback_mode_process", "mode"), &AnimationMixer::set_callback_mode_process);
ClassDB::bind_method(D_METHOD("get_callback_mode_process"), &AnimationMixer::get_callback_mode_process);
ClassDB::bind_method(D_METHOD("set_callback_mode_method", "mode"), &AnimationMixer::set_callback_mode_method);
ClassDB::bind_method(D_METHOD("get_callback_mode_method"), &AnimationMixer::get_callback_mode_method);
ClassDB::bind_method(D_METHOD("set_callback_mode_discrete", "mode"), &AnimationMixer::set_callback_mode_discrete);
ClassDB::bind_method(D_METHOD("get_callback_mode_discrete"), &AnimationMixer::get_callback_mode_discrete);
/* ---- Audio ---- */
ClassDB::bind_method(D_METHOD("set_audio_max_polyphony", "max_polyphony"), &AnimationMixer::set_audio_max_polyphony);
ClassDB::bind_method(D_METHOD("get_audio_max_polyphony"), &AnimationMixer::get_audio_max_polyphony);
/* ---- Root motion accumulator for Skeleton3D ---- */
ClassDB::bind_method(D_METHOD("set_root_motion_track", "path"), &AnimationMixer::set_root_motion_track);
ClassDB::bind_method(D_METHOD("get_root_motion_track"), &AnimationMixer::get_root_motion_track);
ClassDB::bind_method(D_METHOD("get_root_motion_position"), &AnimationMixer::get_root_motion_position);
ClassDB::bind_method(D_METHOD("get_root_motion_rotation"), &AnimationMixer::get_root_motion_rotation);
ClassDB::bind_method(D_METHOD("get_root_motion_scale"), &AnimationMixer::get_root_motion_scale);
ClassDB::bind_method(D_METHOD("get_root_motion_position_accumulator"), &AnimationMixer::get_root_motion_position_accumulator);
ClassDB::bind_method(D_METHOD("get_root_motion_rotation_accumulator"), &AnimationMixer::get_root_motion_rotation_accumulator);
ClassDB::bind_method(D_METHOD("get_root_motion_scale_accumulator"), &AnimationMixer::get_root_motion_scale_accumulator);
/* ---- Blending processor ---- */
ClassDB::bind_method(D_METHOD("clear_caches"), &AnimationMixer::clear_caches);
ClassDB::bind_method(D_METHOD("advance", "delta"), &AnimationMixer::advance);
GDVIRTUAL_BIND(_post_process_key_value, "animation", "track", "value", "object_id", "object_sub_idx");
/* ---- Capture feature ---- */
ClassDB::bind_method(D_METHOD("capture", "name", "duration", "trans_type", "ease_type"), &AnimationMixer::capture, DEFVAL(Tween::TRANS_LINEAR), DEFVAL(Tween::EASE_IN));
/* ---- Reset on save ---- */
ClassDB::bind_method(D_METHOD("set_reset_on_save_enabled", "enabled"), &AnimationMixer::set_reset_on_save_enabled);
ClassDB::bind_method(D_METHOD("is_reset_on_save_enabled"), &AnimationMixer::is_reset_on_save_enabled);
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "active"), "set_active", "is_active");
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "deterministic"), "set_deterministic", "is_deterministic");
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "reset_on_save", PROPERTY_HINT_NONE, ""), "set_reset_on_save_enabled", "is_reset_on_save_enabled");
ADD_PROPERTY(PropertyInfo(Variant::NODE_PATH, "root_node"), "set_root_node", "get_root_node");
ADD_GROUP("Root Motion", "root_motion_");
ADD_PROPERTY(PropertyInfo(Variant::NODE_PATH, "root_motion_track"), "set_root_motion_track", "get_root_motion_track");
ADD_GROUP("Audio", "audio_");
ADD_PROPERTY(PropertyInfo(Variant::INT, "audio_max_polyphony", PROPERTY_HINT_RANGE, "1,127,1"), "set_audio_max_polyphony", "get_audio_max_polyphony");
ADD_GROUP("Callback Mode", "callback_mode_");
ADD_PROPERTY(PropertyInfo(Variant::INT, "callback_mode_process", PROPERTY_HINT_ENUM, "Physics,Idle,Manual"), "set_callback_mode_process", "get_callback_mode_process");
ADD_PROPERTY(PropertyInfo(Variant::INT, "callback_mode_method", PROPERTY_HINT_ENUM, "Deferred,Immediate"), "set_callback_mode_method", "get_callback_mode_method");
ADD_PROPERTY(PropertyInfo(Variant::INT, "callback_mode_discrete", PROPERTY_HINT_ENUM, "Dominant,Recessive,Force Continuous"), "set_callback_mode_discrete", "get_callback_mode_discrete");
BIND_ENUM_CONSTANT(ANIMATION_CALLBACK_MODE_PROCESS_PHYSICS);
BIND_ENUM_CONSTANT(ANIMATION_CALLBACK_MODE_PROCESS_IDLE);
BIND_ENUM_CONSTANT(ANIMATION_CALLBACK_MODE_PROCESS_MANUAL);
BIND_ENUM_CONSTANT(ANIMATION_CALLBACK_MODE_METHOD_DEFERRED);
BIND_ENUM_CONSTANT(ANIMATION_CALLBACK_MODE_METHOD_IMMEDIATE);
BIND_ENUM_CONSTANT(ANIMATION_CALLBACK_MODE_DISCRETE_DOMINANT);
BIND_ENUM_CONSTANT(ANIMATION_CALLBACK_MODE_DISCRETE_RECESSIVE);
BIND_ENUM_CONSTANT(ANIMATION_CALLBACK_MODE_DISCRETE_FORCE_CONTINUOUS);
ADD_SIGNAL(MethodInfo(SNAME("animation_list_changed")));
ADD_SIGNAL(MethodInfo(SNAME("animation_libraries_updated")));
ADD_SIGNAL(MethodInfo(SNAME("animation_finished"), PropertyInfo(Variant::STRING_NAME, "anim_name")));
ADD_SIGNAL(MethodInfo(SNAME("animation_started"), PropertyInfo(Variant::STRING_NAME, "anim_name")));
ADD_SIGNAL(MethodInfo(SNAME("caches_cleared")));
ADD_SIGNAL(MethodInfo(SNAME("mixer_applied")));
ADD_SIGNAL(MethodInfo(SNAME("mixer_updated"))); // For updating dummy player.
ClassDB::bind_method(D_METHOD("_reset"), &AnimationMixer::reset);
ClassDB::bind_method(D_METHOD("_restore", "backup"), &AnimationMixer::restore);
}
AnimationMixer::AnimationMixer() {
root_node = SceneStringName(path_pp);
}
AnimationMixer::~AnimationMixer() {
}
void AnimatedValuesBackup::set_data(const HashMap<Animation::TypeHash, AnimationMixer::TrackCache *> p_data) {
clear_data();
for (const KeyValue<Animation::TypeHash, AnimationMixer::TrackCache *> &E : p_data) {
AnimationMixer::TrackCache *track = get_cache_copy(E.value);
if (!track) {
continue; // Some types of tracks do not get a copy and must be ignored.
}
data.insert(E.key, track);
}
}
HashMap<Animation::TypeHash, AnimationMixer::TrackCache *> AnimatedValuesBackup::get_data() const {
HashMap<Animation::TypeHash, AnimationMixer::TrackCache *> ret;
for (const KeyValue<Animation::TypeHash, AnimationMixer::TrackCache *> &E : data) {
AnimationMixer::TrackCache *track = get_cache_copy(E.value);
ERR_CONTINUE(!track); // Backup shouldn't contain tracks that cannot be copied, this is a mistake.
ret.insert(E.key, track);
}
return ret;
}
void AnimatedValuesBackup::clear_data() {
for (KeyValue<Animation::TypeHash, AnimationMixer::TrackCache *> &K : data) {
memdelete(K.value);
}
data.clear();
}
AnimationMixer::TrackCache *AnimatedValuesBackup::get_cache_copy(AnimationMixer::TrackCache *p_cache) const {
switch (p_cache->type) {
case Animation::TYPE_BEZIER:
case Animation::TYPE_VALUE: {
AnimationMixer::TrackCacheValue *src = static_cast<AnimationMixer::TrackCacheValue *>(p_cache);
AnimationMixer::TrackCacheValue *tc = memnew(AnimationMixer::TrackCacheValue(*src));
return tc;
}
case Animation::TYPE_POSITION_3D:
case Animation::TYPE_ROTATION_3D:
case Animation::TYPE_SCALE_3D: {
AnimationMixer::TrackCacheTransform *src = static_cast<AnimationMixer::TrackCacheTransform *>(p_cache);
AnimationMixer::TrackCacheTransform *tc = memnew(AnimationMixer::TrackCacheTransform(*src));
return tc;
}
case Animation::TYPE_BLEND_SHAPE: {
AnimationMixer::TrackCacheBlendShape *src = static_cast<AnimationMixer::TrackCacheBlendShape *>(p_cache);
AnimationMixer::TrackCacheBlendShape *tc = memnew(AnimationMixer::TrackCacheBlendShape(*src));
return tc;
}
case Animation::TYPE_AUDIO: {
AnimationMixer::TrackCacheAudio *src = static_cast<AnimationMixer::TrackCacheAudio *>(p_cache);
AnimationMixer::TrackCacheAudio *tc = memnew(AnimationMixer::TrackCacheAudio(*src));
return tc;
}
case Animation::TYPE_METHOD:
case Animation::TYPE_ANIMATION: {
// Nothing to do here.
} break;
}
return nullptr;
}
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