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Diffstat (limited to 'modules/gltf/gltf_document.cpp')
-rw-r--r--modules/gltf/gltf_document.cpp642
1 files changed, 321 insertions, 321 deletions
diff --git a/modules/gltf/gltf_document.cpp b/modules/gltf/gltf_document.cpp
index df2856ec7c..5f2e8d4ba6 100644
--- a/modules/gltf/gltf_document.cpp
+++ b/modules/gltf/gltf_document.cpp
@@ -78,7 +78,10 @@
Error GLTFDocument::serialize(Ref<GLTFState> state, Node *p_root, const String &p_path) {
uint64_t begin_time = OS::get_singleton()->get_ticks_usec();
- _convert_scene_node(state, p_root, p_root, -1, -1);
+ state->skeleton3d_to_gltf_skeleton.clear();
+ state->skin_and_skeleton3d_to_gltf_skin.clear();
+
+ _convert_scene_node(state, p_root, -1, -1);
if (!state->buffers.size()) {
state->buffers.push_back(Vector<uint8_t>());
}
@@ -97,11 +100,7 @@ Error GLTFDocument::serialize(Ref<GLTFState> state, Node *p_root, const String &
if (err != OK) {
return Error::FAILED;
}
- /* STEP 4 CREATE BONE ATTACHMENTS */
- err = _serialize_bone_attachment(state);
- if (err != OK) {
- return Error::FAILED;
- }
+
/* STEP 5 SERIALIZE MESHES (we have enough info now) */
err = _serialize_meshes(state);
if (err != OK) {
@@ -249,30 +248,6 @@ Error GLTFDocument::_parse_json(const String &p_path, Ref<GLTFState> state) {
return OK;
}
-Error GLTFDocument::_serialize_bone_attachment(Ref<GLTFState> state) {
- for (int skeleton_i = 0; skeleton_i < state->skeletons.size(); skeleton_i++) {
- for (int attachment_i = 0; attachment_i < state->skeletons[skeleton_i]->bone_attachments.size(); attachment_i++) {
- BoneAttachment3D *bone_attachment = state->skeletons[skeleton_i]->bone_attachments[attachment_i];
- String bone_name = bone_attachment->get_bone_name();
- bone_name = _sanitize_bone_name(bone_name);
- int32_t bone = state->skeletons[skeleton_i]->godot_skeleton->find_bone(bone_name);
- ERR_CONTINUE(bone == -1);
- for (int skin_i = 0; skin_i < state->skins.size(); skin_i++) {
- if (state->skins[skin_i]->skeleton != skeleton_i) {
- continue;
- }
-
- for (int node_i = 0; node_i < bone_attachment->get_child_count(); node_i++) {
- ERR_CONTINUE(bone >= state->skins[skin_i]->joints.size());
- _convert_scene_node(state, bone_attachment->get_child(node_i), bone_attachment->get_owner(), state->skins[skin_i]->joints[bone], 0);
- }
- break;
- }
- }
- }
- return OK;
-}
-
Error GLTFDocument::_parse_glb(const String &p_path, Ref<GLTFState> state) {
Error err;
FileAccessRef f = FileAccess::open(p_path, FileAccess::READ, &err);
@@ -2131,11 +2106,14 @@ Error GLTFDocument::_serialize_meshes(Ref<GLTFState> state) {
continue;
}
Array primitives;
- Array targets;
Dictionary gltf_mesh;
Array target_names;
Array weights;
+ for (int morph_i = 0; morph_i < import_mesh->get_blend_shape_count(); morph_i++) {
+ target_names.push_back(import_mesh->get_blend_shape_name(morph_i));
+ }
for (int surface_i = 0; surface_i < import_mesh->get_surface_count(); surface_i++) {
+ Array targets;
Dictionary primitive;
Mesh::PrimitiveType primitive_type = import_mesh->get_surface_primitive_type(surface_i);
switch (primitive_type) {
@@ -2337,10 +2315,10 @@ Error GLTFDocument::_serialize_meshes(Ref<GLTFState> state) {
const Array &a = array[Mesh::ARRAY_WEIGHTS];
const Vector<Vector3> &vertex_array = array[Mesh::ARRAY_VERTEX];
if ((a.size() / JOINT_GROUP_SIZE) == vertex_array.size()) {
- const int ret_size = a.size() / JOINT_GROUP_SIZE;
+ int32_t vertex_count = vertex_array.size();
Vector<Color> attribs;
- attribs.resize(ret_size);
- for (int i = 0; i < ret_size; i++) {
+ attribs.resize(vertex_count);
+ for (int i = 0; i < vertex_count; i++) {
attribs.write[i] = Color(a[(i * JOINT_GROUP_SIZE) + 0], a[(i * JOINT_GROUP_SIZE) + 1], a[(i * JOINT_GROUP_SIZE) + 2], a[(i * JOINT_GROUP_SIZE) + 3]);
}
attributes["WEIGHTS_0"] = _encode_accessor_as_weights(state, attribs, true);
@@ -2410,7 +2388,6 @@ Error GLTFDocument::_serialize_meshes(Ref<GLTFState> state) {
ArrayMesh::BlendShapeMode shape_mode = import_mesh->get_blend_shape_mode();
for (int morph_i = 0; morph_i < import_mesh->get_blend_shape_count(); morph_i++) {
Array array_morph = import_mesh->get_surface_blend_shape_arrays(surface_i, morph_i);
- target_names.push_back(import_mesh->get_blend_shape_name(morph_i));
Dictionary t;
Vector<Vector3> varr = array_morph[Mesh::ARRAY_VERTEX];
Array mesh_arrays = import_mesh->get_surface_arrays(surface_i);
@@ -2427,22 +2404,21 @@ Error GLTFDocument::_serialize_meshes(Ref<GLTFState> state) {
}
Vector<Vector3> narr = array_morph[Mesh::ARRAY_NORMAL];
- if (varr.size()) {
+ if (narr.size()) {
t["NORMAL"] = _encode_accessor_as_vec3(state, narr, true);
}
Vector<real_t> tarr = array_morph[Mesh::ARRAY_TANGENT];
if (tarr.size()) {
const int ret_size = tarr.size() / 4;
- Vector<Color> attribs;
+ Vector<Vector3> attribs;
attribs.resize(ret_size);
for (int i = 0; i < ret_size; i++) {
- Color tangent;
- tangent.r = tarr[(i * 4) + 0];
- tangent.g = tarr[(i * 4) + 1];
- tangent.b = tarr[(i * 4) + 2];
- tangent.a = tarr[(i * 4) + 3];
+ Vector3 vec3;
+ vec3.x = tarr[(i * 4) + 0];
+ vec3.y = tarr[(i * 4) + 1];
+ vec3.z = tarr[(i * 4) + 2];
}
- t["TANGENT"] = _encode_accessor_as_color(state, attribs, true);
+ t["TANGENT"] = _encode_accessor_as_vec3(state, attribs, true);
}
targets.push_back(t);
}
@@ -2471,12 +2447,13 @@ Error GLTFDocument::_serialize_meshes(Ref<GLTFState> state) {
Dictionary e;
e["targetNames"] = target_names;
- for (int j = 0; j < target_names.size(); j++) {
+ weights.resize(target_names.size());
+ for (int name_i = 0; name_i < target_names.size(); name_i++) {
real_t weight = 0.0;
- if (j < state->meshes.write[gltf_mesh_i]->get_blend_weights().size()) {
- weight = state->meshes.write[gltf_mesh_i]->get_blend_weights()[j];
+ if (name_i < state->meshes.write[gltf_mesh_i]->get_blend_weights().size()) {
+ weight = state->meshes.write[gltf_mesh_i]->get_blend_weights()[name_i];
}
- weights.push_back(weight);
+ weights[name_i] = weight;
}
if (weights.size()) {
gltf_mesh["weights"] = weights;
@@ -3757,10 +3734,7 @@ void GLTFDocument::spec_gloss_to_metal_base_color(const Color &p_specular_factor
r_base_color.g = Math::lerp(base_color_from_diffuse.g, base_color_from_specular.g, r_metallic * r_metallic);
r_base_color.b = Math::lerp(base_color_from_diffuse.b, base_color_from_specular.b, r_metallic * r_metallic);
r_base_color.a = p_diffuse.a;
- r_base_color.r = CLAMP(r_base_color.r, 0.0f, 1.0f);
- r_base_color.g = CLAMP(r_base_color.g, 0.0f, 1.0f);
- r_base_color.b = CLAMP(r_base_color.b, 0.0f, 1.0f);
- r_base_color.a = CLAMP(r_base_color.a, 0.0f, 1.0f);
+ r_base_color = r_base_color.clamp();
}
GLTFNodeIndex GLTFDocument::_find_highest_node(Ref<GLTFState> state, const Vector<GLTFNodeIndex> &subset) {
@@ -4288,6 +4262,7 @@ Error GLTFDocument::_create_skeletons(Ref<GLTFState> state) {
Skeleton3D *skeleton = memnew(Skeleton3D);
gltf_skeleton->godot_skeleton = skeleton;
+ state->skeleton3d_to_gltf_skeleton[skeleton->get_instance_id()] = skel_i;
// Make a unique name, no gltf node represents this skeleton
skeleton->set_name(_gen_unique_name(state, "Skeleton3D"));
@@ -4373,6 +4348,16 @@ Error GLTFDocument::_map_skin_joints_indices_to_skeleton_bone_indices(Ref<GLTFSt
Error GLTFDocument::_serialize_skins(Ref<GLTFState> state) {
_remove_duplicate_skins(state);
+ Array json_skins;
+ for (int skin_i = 0; skin_i < state->skins.size(); skin_i++) {
+ Ref<GLTFSkin> gltf_skin = state->skins[skin_i];
+ Dictionary json_skin;
+ json_skin["inverseBindMatrices"] = _encode_accessor_as_xform(state, gltf_skin->inverse_binds, false);
+ json_skin["joints"] = gltf_skin->get_joints();
+ json_skin["name"] = gltf_skin->get_name();
+ json_skins.push_back(json_skin);
+ }
+ state->json["skins"] = json_skins;
return OK;
}
@@ -4751,30 +4736,74 @@ Error GLTFDocument::_serialize_animations(Ref<GLTFState> state) {
channels.push_back(t);
}
if (track.weight_tracks.size()) {
+ double length = 0.0f;
+
+ for (int32_t track_idx = 0; track_idx < track.weight_tracks.size(); track_idx++) {
+ int32_t last_time_index = track.weight_tracks[track_idx].times.size() - 1;
+ length = MAX(length, track.weight_tracks[track_idx].times[last_time_index]);
+ }
+
Dictionary t;
t["sampler"] = samplers.size();
Dictionary s;
-
Vector<real_t> times;
- Vector<real_t> values;
+ const double increment = 1.0 / BAKE_FPS;
+ {
+ double time = 0.0;
+ bool last = false;
+ while (true) {
+ times.push_back(time);
+ if (last) {
+ break;
+ }
+ time += increment;
+ if (time >= length) {
+ last = true;
+ time = length;
+ }
+ }
+ }
- for (int32_t times_i = 0; times_i < track.weight_tracks[0].times.size(); times_i++) {
- real_t time = track.weight_tracks[0].times[times_i];
- times.push_back(time);
+ for (int32_t track_idx = 0; track_idx < track.weight_tracks.size(); track_idx++) {
+ double time = 0.0;
+ bool last = false;
+ Vector<real_t> weight_track;
+ while (true) {
+ float weight = _interpolate_track<float>(track.weight_tracks[track_idx].times,
+ track.weight_tracks[track_idx].values,
+ time,
+ track.weight_tracks[track_idx].interpolation);
+ weight_track.push_back(weight);
+ if (last) {
+ break;
+ }
+ time += increment;
+ if (time >= length) {
+ last = true;
+ time = length;
+ }
+ }
+ track.weight_tracks.write[track_idx].times = times;
+ track.weight_tracks.write[track_idx].values = weight_track;
}
- values.resize(times.size() * track.weight_tracks.size());
- // TODO Sort by order in blend shapes
+ Vector<real_t> all_track_times = times;
+ Vector<real_t> all_track_values;
+ int32_t values_size = track.weight_tracks[0].values.size();
+ int32_t weight_tracks_size = track.weight_tracks.size();
+ all_track_values.resize(weight_tracks_size * values_size);
for (int k = 0; k < track.weight_tracks.size(); k++) {
Vector<float> wdata = track.weight_tracks[k].values;
for (int l = 0; l < wdata.size(); l++) {
- values.write[l * track.weight_tracks.size() + k] = wdata.write[l];
+ int32_t index = l * weight_tracks_size + k;
+ ERR_BREAK(index >= all_track_values.size());
+ all_track_values.write[index] = wdata.write[l];
}
}
s["interpolation"] = interpolation_to_string(track.weight_tracks[track.weight_tracks.size() - 1].interpolation);
- s["input"] = _encode_accessor_as_floats(state, times, false);
- s["output"] = _encode_accessor_as_floats(state, values, false);
+ s["input"] = _encode_accessor_as_floats(state, all_track_times, false);
+ s["output"] = _encode_accessor_as_floats(state, all_track_values, false);
samplers.push_back(s);
@@ -4908,7 +4937,7 @@ Error GLTFDocument::_parse_animations(Ref<GLTFState> state) {
track->weight_tracks.resize(wc);
const int expected_value_count = times.size() * output_count * wc;
- ERR_FAIL_COND_V_MSG(weights.size() != expected_value_count, ERR_PARSE_ERROR, "Invalid weight data, expected " + itos(expected_value_count) + " weight values, got " + itos(weights.size()) + " instead.");
+ ERR_CONTINUE_MSG(weights.size() != expected_value_count, "Invalid weight data, expected " + itos(expected_value_count) + " weight values, got " + itos(weights.size()) + " instead.");
const int wlen = weights.size() / wc;
for (int k = 0; k < wc; k++) { //separate tracks, having them together is not such a good idea
@@ -4973,7 +5002,7 @@ BoneAttachment3D *GLTFDocument::_generate_bone_attachment(Ref<GLTFState> state,
return bone_attachment;
}
-GLTFMeshIndex GLTFDocument::_convert_mesh_instance(Ref<GLTFState> state, MeshInstance3D *p_mesh_instance) {
+GLTFMeshIndex GLTFDocument::_convert_mesh_to_gltf(Ref<GLTFState> state, MeshInstance3D *p_mesh_instance) {
ERR_FAIL_NULL_V(p_mesh_instance, -1);
if (p_mesh_instance->get_mesh().is_null()) {
return -1;
@@ -5074,7 +5103,7 @@ Node3D *GLTFDocument::_generate_light(Ref<GLTFState> state, Node *scene_parent,
const float range = CLAMP(l->range, 0, 4096);
// Doubling the range will double the effective brightness, so we need double attenuation (half brightness).
// We want to have double intensity give double brightness, so we need half the attenuation.
- const float attenuation = range / intensity;
+ const float attenuation = range / (intensity * 2048);
if (l->light_type == "point") {
OmniLight3D *light = memnew(OmniLight3D);
light->set_param(OmniLight3D::PARAM_ATTENUATION, attenuation);
@@ -5150,13 +5179,13 @@ GLTFLightIndex GLTFDocument::_convert_light(Ref<GLTFState> state, Light3D *p_lig
OmniLight3D *light = cast_to<OmniLight3D>(p_light);
l->range = light->get_param(OmniLight3D::PARAM_RANGE);
float attenuation = p_light->get_param(OmniLight3D::PARAM_ATTENUATION);
- l->intensity = l->range / attenuation;
+ l->intensity = l->range / (attenuation * 2048);
} else if (cast_to<SpotLight3D>(p_light)) {
l->light_type = "spot";
SpotLight3D *light = cast_to<SpotLight3D>(p_light);
l->range = light->get_param(SpotLight3D::PARAM_RANGE);
float attenuation = light->get_param(SpotLight3D::PARAM_ATTENUATION);
- l->intensity = l->range / attenuation;
+ l->intensity = l->range / (attenuation * 2048);
l->outer_cone_angle = Math::deg2rad(light->get_param(SpotLight3D::PARAM_SPOT_ANGLE));
// This equation is the inverse of the import equation (which has a desmos link).
@@ -5170,17 +5199,6 @@ GLTFLightIndex GLTFDocument::_convert_light(Ref<GLTFState> state, Light3D *p_lig
return light_index;
}
-GLTFSkeletonIndex GLTFDocument::_convert_skeleton(Ref<GLTFState> state, Skeleton3D *p_skeleton) {
- print_verbose("glTF: Converting skeleton: " + p_skeleton->get_name());
- Ref<GLTFSkeleton> gltf_skeleton;
- gltf_skeleton.instantiate();
- gltf_skeleton->set_name(_gen_unique_name(state, p_skeleton->get_name()));
- gltf_skeleton->godot_skeleton = p_skeleton;
- GLTFSkeletonIndex skeleton_i = state->skeletons.size();
- state->skeletons.push_back(gltf_skeleton);
- return skeleton_i;
-}
-
void GLTFDocument::_convert_spatial(Ref<GLTFState> state, Node3D *p_spatial, Ref<GLTFNode> p_node) {
Transform3D xform = p_spatial->get_transform();
p_node->scale = xform.basis.get_scale();
@@ -5196,7 +5214,7 @@ Node3D *GLTFDocument::_generate_spatial(Ref<GLTFState> state, Node *scene_parent
return spatial;
}
-void GLTFDocument::_convert_scene_node(Ref<GLTFState> state, Node *p_current, Node *p_root, const GLTFNodeIndex p_gltf_parent, const GLTFNodeIndex p_gltf_root) {
+void GLTFDocument::_convert_scene_node(Ref<GLTFState> state, Node *p_current, const GLTFNodeIndex p_gltf_parent, const GLTFNodeIndex p_gltf_root) {
bool retflag = true;
_check_visibility(p_current, retflag);
if (retflag) {
@@ -5210,37 +5228,41 @@ void GLTFDocument::_convert_scene_node(Ref<GLTFState> state, Node *p_current, No
_convert_spatial(state, spatial, gltf_node);
}
if (cast_to<MeshInstance3D>(p_current)) {
- Node3D *spatial = cast_to<Node3D>(p_current);
- _convert_mesh_to_gltf(p_current, state, spatial, gltf_node);
+ MeshInstance3D *mi = cast_to<MeshInstance3D>(p_current);
+ _convert_mesh_instance_to_gltf(mi, state, gltf_node);
} else if (cast_to<BoneAttachment3D>(p_current)) {
- _convert_bone_attachment_to_gltf(p_current, state, gltf_node, retflag);
- // TODO 2020-12-21 iFire Handle the case of objects under the bone attachment.
+ BoneAttachment3D *bone = cast_to<BoneAttachment3D>(p_current);
+ _convert_bone_attachment_to_gltf(bone, state, p_gltf_parent, p_gltf_root, gltf_node);
return;
} else if (cast_to<Skeleton3D>(p_current)) {
- _convert_skeleton_to_gltf(p_current, state, p_gltf_parent, p_gltf_root, gltf_node, p_root);
+ Skeleton3D *skel = cast_to<Skeleton3D>(p_current);
+ _convert_skeleton_to_gltf(skel, state, p_gltf_parent, p_gltf_root, gltf_node);
// We ignore the Godot Engine node that is the skeleton.
return;
} else if (cast_to<MultiMeshInstance3D>(p_current)) {
- _convert_mult_mesh_instance_to_gltf(p_current, p_gltf_parent, p_gltf_root, gltf_node, state, p_root);
+ MultiMeshInstance3D *multi = cast_to<MultiMeshInstance3D>(p_current);
+ _convert_mult_mesh_instance_to_gltf(multi, p_gltf_parent, p_gltf_root, gltf_node, state);
#ifdef MODULE_CSG_ENABLED
} else if (cast_to<CSGShape3D>(p_current)) {
- if (p_current->get_parent() && cast_to<CSGShape3D>(p_current)->is_root_shape()) {
- _convert_csg_shape_to_gltf(p_current, p_gltf_parent, gltf_node, state);
+ CSGShape3D *shape = cast_to<CSGShape3D>(p_current);
+ if (shape->get_parent() && shape->is_root_shape()) {
+ _convert_csg_shape_to_gltf(shape, p_gltf_parent, gltf_node, state);
}
#endif // MODULE_CSG_ENABLED
#ifdef MODULE_GRIDMAP_ENABLED
} else if (cast_to<GridMap>(p_current)) {
- _convert_grid_map_to_gltf(p_current, p_gltf_parent, p_gltf_root, gltf_node, state, p_root);
+ GridMap *gridmap = Object::cast_to<GridMap>(p_current);
+ _convert_grid_map_to_gltf(gridmap, p_gltf_parent, p_gltf_root, gltf_node, state);
#endif // MODULE_GRIDMAP_ENABLED
} else if (cast_to<Camera3D>(p_current)) {
Camera3D *camera = Object::cast_to<Camera3D>(p_current);
- _convert_camera_to_gltf(camera, state, camera, gltf_node);
+ _convert_camera_to_gltf(camera, state, gltf_node);
} else if (cast_to<Light3D>(p_current)) {
Light3D *light = Object::cast_to<Light3D>(p_current);
- _convert_light_to_gltf(light, state, light, gltf_node);
+ _convert_light_to_gltf(light, state, gltf_node);
} else if (cast_to<AnimationPlayer>(p_current)) {
AnimationPlayer *animation_player = Object::cast_to<AnimationPlayer>(p_current);
- _convert_animation_player_to_gltf(animation_player, state, p_gltf_parent, p_gltf_root, gltf_node, p_current, p_root);
+ _convert_animation_player_to_gltf(animation_player, state, p_gltf_parent, p_gltf_root, gltf_node, p_current);
}
GLTFNodeIndex current_node_i = state->nodes.size();
GLTFNodeIndex gltf_root = p_gltf_root;
@@ -5252,13 +5274,13 @@ void GLTFDocument::_convert_scene_node(Ref<GLTFState> state, Node *p_current, No
}
_create_gltf_node(state, p_current, current_node_i, p_gltf_parent, gltf_root, gltf_node);
for (int node_i = 0; node_i < p_current->get_child_count(); node_i++) {
- _convert_scene_node(state, p_current->get_child(node_i), p_root, current_node_i, gltf_root);
+ _convert_scene_node(state, p_current->get_child(node_i), current_node_i, gltf_root);
}
}
#ifdef MODULE_CSG_ENABLED
-void GLTFDocument::_convert_csg_shape_to_gltf(Node *p_current, GLTFNodeIndex p_gltf_parent, Ref<GLTFNode> gltf_node, Ref<GLTFState> state) {
- CSGShape3D *csg = Object::cast_to<CSGShape3D>(p_current);
+void GLTFDocument::_convert_csg_shape_to_gltf(CSGShape3D *p_current, GLTFNodeIndex p_gltf_parent, Ref<GLTFNode> gltf_node, Ref<GLTFState> state) {
+ CSGShape3D *csg = p_current;
csg->call("_update_shape");
Array meshes = csg->get_meshes();
if (meshes.size() != 2) {
@@ -5289,16 +5311,15 @@ void GLTFDocument::_create_gltf_node(Ref<GLTFState> state, Node *p_scene_parent,
GLTFNodeIndex p_parent_node_index, GLTFNodeIndex p_root_gltf_node, Ref<GLTFNode> gltf_node) {
state->scene_nodes.insert(current_node_i, p_scene_parent);
state->nodes.push_back(gltf_node);
- if (current_node_i == p_parent_node_index) {
- return;
- }
+ ERR_FAIL_COND(current_node_i == p_parent_node_index);
+ state->nodes.write[current_node_i]->parent = p_parent_node_index;
if (p_parent_node_index == -1) {
return;
}
state->nodes.write[p_parent_node_index]->children.push_back(current_node_i);
}
-void GLTFDocument::_convert_animation_player_to_gltf(AnimationPlayer *animation_player, Ref<GLTFState> state, const GLTFNodeIndex &p_gltf_current, const GLTFNodeIndex &p_gltf_root_index, Ref<GLTFNode> p_gltf_node, Node *p_scene_parent, Node *p_root) {
+void GLTFDocument::_convert_animation_player_to_gltf(AnimationPlayer *animation_player, Ref<GLTFState> state, GLTFNodeIndex p_gltf_current, GLTFNodeIndex p_gltf_root_index, Ref<GLTFNode> p_gltf_node, Node *p_scene_parent) {
ERR_FAIL_COND(!animation_player);
state->animation_players.push_back(animation_player);
print_verbose(String("glTF: Converting animation player: ") + animation_player->get_name());
@@ -5317,7 +5338,7 @@ void GLTFDocument::_check_visibility(Node *p_node, bool &retflag) {
retflag = false;
}
-void GLTFDocument::_convert_camera_to_gltf(Camera3D *camera, Ref<GLTFState> state, Node3D *spatial, Ref<GLTFNode> gltf_node) {
+void GLTFDocument::_convert_camera_to_gltf(Camera3D *camera, Ref<GLTFState> state, Ref<GLTFNode> gltf_node) {
ERR_FAIL_COND(!camera);
GLTFCameraIndex camera_index = _convert_camera(state, camera);
if (camera_index != -1) {
@@ -5325,7 +5346,7 @@ void GLTFDocument::_convert_camera_to_gltf(Camera3D *camera, Ref<GLTFState> stat
}
}
-void GLTFDocument::_convert_light_to_gltf(Light3D *light, Ref<GLTFState> state, Node3D *spatial, Ref<GLTFNode> gltf_node) {
+void GLTFDocument::_convert_light_to_gltf(Light3D *light, Ref<GLTFState> state, Ref<GLTFNode> gltf_node) {
ERR_FAIL_COND(!light);
GLTFLightIndex light_index = _convert_light(state, light);
if (light_index != -1) {
@@ -5334,43 +5355,39 @@ void GLTFDocument::_convert_light_to_gltf(Light3D *light, Ref<GLTFState> state,
}
#ifdef MODULE_GRIDMAP_ENABLED
-void GLTFDocument::_convert_grid_map_to_gltf(Node *p_scene_parent, const GLTFNodeIndex &p_parent_node_index, const GLTFNodeIndex &p_root_node_index, Ref<GLTFNode> gltf_node, Ref<GLTFState> state, Node *p_root_node) {
- GridMap *grid_map = Object::cast_to<GridMap>(p_scene_parent);
- ERR_FAIL_COND(!grid_map);
- Array cells = grid_map->get_used_cells();
+void GLTFDocument::_convert_grid_map_to_gltf(GridMap *p_grid_map, GLTFNodeIndex p_parent_node_index, GLTFNodeIndex p_root_node_index, Ref<GLTFNode> gltf_node, Ref<GLTFState> state) {
+ Array cells = p_grid_map->get_used_cells();
for (int32_t k = 0; k < cells.size(); k++) {
GLTFNode *new_gltf_node = memnew(GLTFNode);
gltf_node->children.push_back(state->nodes.size());
state->nodes.push_back(new_gltf_node);
Vector3 cell_location = cells[k];
- int32_t cell = grid_map->get_cell_item(
+ int32_t cell = p_grid_map->get_cell_item(
Vector3(cell_location.x, cell_location.y, cell_location.z));
EditorSceneImporterMeshNode3D *import_mesh_node = memnew(EditorSceneImporterMeshNode3D);
- import_mesh_node->set_mesh(grid_map->get_mesh_library()->get_item_mesh(cell));
+ import_mesh_node->set_mesh(p_grid_map->get_mesh_library()->get_item_mesh(cell));
Transform3D cell_xform;
cell_xform.basis.set_orthogonal_index(
- grid_map->get_cell_item_orientation(
+ p_grid_map->get_cell_item_orientation(
Vector3(cell_location.x, cell_location.y, cell_location.z)));
- cell_xform.basis.scale(Vector3(grid_map->get_cell_scale(),
- grid_map->get_cell_scale(),
- grid_map->get_cell_scale()));
- cell_xform.set_origin(grid_map->map_to_world(
+ cell_xform.basis.scale(Vector3(p_grid_map->get_cell_scale(),
+ p_grid_map->get_cell_scale(),
+ p_grid_map->get_cell_scale()));
+ cell_xform.set_origin(p_grid_map->map_to_world(
Vector3(cell_location.x, cell_location.y, cell_location.z)));
Ref<GLTFMesh> gltf_mesh;
gltf_mesh.instantiate();
gltf_mesh = import_mesh_node;
new_gltf_node->mesh = state->meshes.size();
state->meshes.push_back(gltf_mesh);
- new_gltf_node->xform = cell_xform * grid_map->get_transform();
- new_gltf_node->set_name(_gen_unique_name(state, grid_map->get_mesh_library()->get_item_name(cell)));
+ new_gltf_node->xform = cell_xform * p_grid_map->get_transform();
+ new_gltf_node->set_name(_gen_unique_name(state, p_grid_map->get_mesh_library()->get_item_name(cell)));
}
}
#endif // MODULE_GRIDMAP_ENABLED
-void GLTFDocument::_convert_mult_mesh_instance_to_gltf(Node *p_scene_parent, const GLTFNodeIndex &p_parent_node_index, const GLTFNodeIndex &p_root_node_index, Ref<GLTFNode> gltf_node, Ref<GLTFState> state, Node *p_root_node) {
- MultiMeshInstance3D *multi_mesh_instance = Object::cast_to<MultiMeshInstance3D>(p_scene_parent);
- ERR_FAIL_COND(!multi_mesh_instance);
- Ref<MultiMesh> multi_mesh = multi_mesh_instance->get_multimesh();
+void GLTFDocument::_convert_mult_mesh_instance_to_gltf(MultiMeshInstance3D *p_multi_mesh_instance, GLTFNodeIndex p_parent_node_index, GLTFNodeIndex p_root_node_index, Ref<GLTFNode> gltf_node, Ref<GLTFState> state) {
+ Ref<MultiMesh> multi_mesh = p_multi_mesh_instance->get_multimesh();
if (multi_mesh.is_valid()) {
for (int32_t instance_i = 0; instance_i < multi_mesh->get_instance_count();
instance_i++) {
@@ -5386,9 +5403,9 @@ void GLTFDocument::_convert_mult_mesh_instance_to_gltf(Node *p_scene_parent, con
transform.basis.set_quaternion_scale(quaternion,
Vector3(scale.x, 0, scale.y));
transform =
- multi_mesh_instance->get_transform() * transform;
+ p_multi_mesh_instance->get_transform() * transform;
} else if (multi_mesh->get_transform_format() == MultiMesh::TRANSFORM_3D) {
- transform = multi_mesh_instance->get_transform() *
+ transform = p_multi_mesh_instance->get_transform() *
multi_mesh->get_instance_transform(instance_i);
}
Ref<ArrayMesh> mm = multi_mesh->get_mesh();
@@ -5408,56 +5425,102 @@ void GLTFDocument::_convert_mult_mesh_instance_to_gltf(Node *p_scene_parent, con
state->meshes.push_back(gltf_mesh);
}
new_gltf_node->xform = transform;
- new_gltf_node->set_name(_gen_unique_name(state, multi_mesh_instance->get_name()));
+ new_gltf_node->set_name(_gen_unique_name(state, p_multi_mesh_instance->get_name()));
gltf_node->children.push_back(state->nodes.size());
state->nodes.push_back(new_gltf_node);
}
}
}
-void GLTFDocument::_convert_skeleton_to_gltf(Node *p_scene_parent, Ref<GLTFState> state, const GLTFNodeIndex &p_parent_node_index, const GLTFNodeIndex &p_root_node_index, Ref<GLTFNode> gltf_node, Node *p_root_node) {
- Skeleton3D *skeleton = Object::cast_to<Skeleton3D>(p_scene_parent);
- if (skeleton) {
- // Remove placeholder skeleton3d node by not creating the gltf node
- // Skins are per mesh
- for (int node_i = 0; node_i < skeleton->get_child_count(); node_i++) {
- _convert_scene_node(state, skeleton->get_child(node_i), p_root_node, p_parent_node_index, p_root_node_index);
+void GLTFDocument::_convert_skeleton_to_gltf(Skeleton3D *p_skeleton3d, Ref<GLTFState> state, GLTFNodeIndex p_parent_node_index, GLTFNodeIndex p_root_node_index, Ref<GLTFNode> gltf_node) {
+ Skeleton3D *skeleton = p_skeleton3d;
+ Ref<GLTFSkeleton> gltf_skeleton;
+ gltf_skeleton.instantiate();
+ // GLTFSkeleton is only used to hold internal state data. It will not be written to the document.
+ //
+ gltf_skeleton->godot_skeleton = skeleton;
+ GLTFSkeletonIndex skeleton_i = state->skeletons.size();
+ state->skeleton3d_to_gltf_skeleton[skeleton->get_instance_id()] = skeleton_i;
+ state->skeletons.push_back(gltf_skeleton);
+
+ BoneId bone_count = skeleton->get_bone_count();
+ for (BoneId bone_i = 0; bone_i < bone_count; bone_i++) {
+ Ref<GLTFNode> joint_node;
+ joint_node.instantiate();
+ // Note that we cannot use _gen_unique_bone_name here, because glTF spec requires all node
+ // names to be unique regardless of whether or not they are used as joints.
+ joint_node->set_name(_gen_unique_name(state, skeleton->get_bone_name(bone_i)));
+ Transform3D xform = skeleton->get_bone_rest(bone_i) * skeleton->get_bone_pose(bone_i);
+ joint_node->scale = xform.basis.get_scale();
+ joint_node->rotation = xform.basis.get_rotation_quaternion();
+ joint_node->position = xform.origin;
+ joint_node->joint = true;
+ GLTFNodeIndex current_node_i = state->nodes.size();
+ state->scene_nodes.insert(current_node_i, skeleton);
+ state->nodes.push_back(joint_node);
+
+ gltf_skeleton->joints.push_back(current_node_i);
+ if (skeleton->get_bone_parent(bone_i) == -1) {
+ gltf_skeleton->roots.push_back(current_node_i);
+ }
+ gltf_skeleton->godot_bone_node.insert(bone_i, current_node_i);
+ }
+ for (BoneId bone_i = 0; bone_i < bone_count; bone_i++) {
+ GLTFNodeIndex current_node_i = gltf_skeleton->godot_bone_node[bone_i];
+ BoneId parent_bone_id = skeleton->get_bone_parent(bone_i);
+ if (parent_bone_id == -1) {
+ if (p_parent_node_index != -1) {
+ state->nodes.write[current_node_i]->parent = p_parent_node_index;
+ state->nodes.write[p_parent_node_index]->children.push_back(current_node_i);
+ }
+ } else {
+ GLTFNodeIndex parent_node_i = gltf_skeleton->godot_bone_node[parent_bone_id];
+ state->nodes.write[current_node_i]->parent = parent_node_i;
+ state->nodes.write[parent_node_i]->children.push_back(current_node_i);
}
}
+ // Remove placeholder skeleton3d node by not creating the gltf node
+ // Skins are per mesh
+ for (int node_i = 0; node_i < skeleton->get_child_count(); node_i++) {
+ _convert_scene_node(state, skeleton->get_child(node_i), p_parent_node_index, p_root_node_index);
+ }
}
-void GLTFDocument::_convert_bone_attachment_to_gltf(Node *p_scene_parent, Ref<GLTFState> state, Ref<GLTFNode> gltf_node, bool &retflag) {
- retflag = true;
- BoneAttachment3D *bone_attachment = Object::cast_to<BoneAttachment3D>(p_scene_parent);
- if (bone_attachment) {
- Node *node = bone_attachment->get_parent();
- while (node) {
- Skeleton3D *bone_attachment_skeleton = Object::cast_to<Skeleton3D>(node);
- if (bone_attachment_skeleton) {
- for (GLTFSkeletonIndex skeleton_i = 0; skeleton_i < state->skeletons.size(); skeleton_i++) {
- if (state->skeletons[skeleton_i]->godot_skeleton != bone_attachment_skeleton) {
- continue;
- }
- state->skeletons.write[skeleton_i]->bone_attachments.push_back(bone_attachment);
- break;
- }
- break;
- }
- node = node->get_parent();
+void GLTFDocument::_convert_bone_attachment_to_gltf(BoneAttachment3D *p_bone_attachment, Ref<GLTFState> state, GLTFNodeIndex p_parent_node_index, GLTFNodeIndex p_root_node_index, Ref<GLTFNode> gltf_node) {
+ Skeleton3D *skeleton;
+ // Note that relative transforms to external skeletons and pose overrides are not supported.
+ if (p_bone_attachment->get_use_external_skeleton()) {
+ skeleton = cast_to<Skeleton3D>(p_bone_attachment->get_node_or_null(p_bone_attachment->get_external_skeleton()));
+ } else {
+ skeleton = cast_to<Skeleton3D>(p_bone_attachment->get_parent());
+ }
+ GLTFSkeletonIndex skel_gltf_i = -1;
+ if (skeleton != nullptr && state->skeleton3d_to_gltf_skeleton.has(skeleton->get_instance_id())) {
+ skel_gltf_i = state->skeleton3d_to_gltf_skeleton[skeleton->get_instance_id()];
+ }
+ int bone_idx = -1;
+ if (skeleton != nullptr) {
+ bone_idx = p_bone_attachment->get_bone_idx();
+ if (bone_idx == -1) {
+ bone_idx = skeleton->find_bone(p_bone_attachment->get_bone_name());
}
- gltf_node.unref();
- return;
}
- retflag = false;
+ GLTFNodeIndex par_node_index = p_parent_node_index;
+ if (skeleton != nullptr && bone_idx != -1 && skel_gltf_i != -1) {
+ Ref<GLTFSkeleton> gltf_skeleton = state->skeletons.write[skel_gltf_i];
+ gltf_skeleton->bone_attachments.push_back(p_bone_attachment);
+ par_node_index = gltf_skeleton->joints[bone_idx];
+ }
+
+ for (int node_i = 0; node_i < p_bone_attachment->get_child_count(); node_i++) {
+ _convert_scene_node(state, p_bone_attachment->get_child(node_i), par_node_index, p_root_node_index);
+ }
}
-void GLTFDocument::_convert_mesh_to_gltf(Node *p_scene_parent, Ref<GLTFState> state, Node3D *spatial, Ref<GLTFNode> gltf_node) {
- MeshInstance3D *mi = Object::cast_to<MeshInstance3D>(p_scene_parent);
- if (mi) {
- GLTFMeshIndex gltf_mesh_index = _convert_mesh_instance(state, mi);
- if (gltf_mesh_index != -1) {
- gltf_node->mesh = gltf_mesh_index;
- }
+void GLTFDocument::_convert_mesh_instance_to_gltf(MeshInstance3D *p_scene_parent, Ref<GLTFState> state, Ref<GLTFNode> gltf_node) {
+ GLTFMeshIndex gltf_mesh_index = _convert_mesh_to_gltf(state, p_scene_parent);
+ if (gltf_mesh_index != -1) {
+ gltf_node->mesh = gltf_mesh_index;
}
}
@@ -5911,10 +5974,6 @@ void GLTFDocument::_convert_mesh_instances(Ref<GLTFState> state) {
if (node->mesh < 0) {
continue;
}
- Array json_skins;
- if (state->json.has("skins")) {
- json_skins = state->json["skins"];
- }
Map<GLTFNodeIndex, Node *>::Element *mi_element = state->scene_nodes.find(mi_node_i);
if (!mi_element) {
continue;
@@ -5926,7 +5985,6 @@ void GLTFDocument::_convert_mesh_instances(Ref<GLTFState> state) {
node->rotation = mi_xform.basis.get_rotation_quaternion();
node->position = mi_xform.origin;
- Dictionary json_skin;
Skeleton3D *skeleton = Object::cast_to<Skeleton3D>(mi->get_node(mi->get_skeleton_path()));
if (!skeleton) {
continue;
@@ -5935,121 +5993,75 @@ void GLTFDocument::_convert_mesh_instances(Ref<GLTFState> state) {
continue;
}
Ref<Skin> skin = mi->get_skin();
- if (skin.is_null()) {
- skin = skeleton->register_skin(nullptr)->get_skin();
- }
Ref<GLTFSkin> gltf_skin;
gltf_skin.instantiate();
Array json_joints;
- GLTFSkeletonIndex skeleton_gltf_i = -1;
NodePath skeleton_path = mi->get_skeleton_path();
- bool is_unique = true;
- for (int32_t skin_i = 0; skin_i < state->skins.size(); skin_i++) {
- Ref<GLTFSkin> prev_gltf_skin = state->skins.write[skin_i];
- if (gltf_skin.is_null()) {
- continue;
- }
- GLTFSkeletonIndex prev_skeleton = prev_gltf_skin->get_skeleton();
- if (prev_skeleton == -1 || prev_skeleton >= state->skeletons.size()) {
- continue;
- }
- if (prev_gltf_skin->get_godot_skin() == skin && state->skeletons[prev_skeleton]->godot_skeleton == skeleton) {
- node->skin = skin_i;
- node->skeleton = prev_skeleton;
- is_unique = false;
- break;
- }
- }
- if (!is_unique) {
- continue;
- }
- GLTFSkeletonIndex skeleton_i = _convert_skeleton(state, skeleton);
- skeleton_gltf_i = skeleton_i;
- ERR_CONTINUE(skeleton_gltf_i == -1);
- gltf_skin->skeleton = skeleton_gltf_i;
- Ref<GLTFSkeleton> gltf_skeleton = state->skeletons.write[skeleton_gltf_i];
- for (int32_t bind_i = 0; bind_i < skin->get_bind_count(); bind_i++) {
- String godot_bone_name = skin->get_bind_name(bind_i);
- if (godot_bone_name.is_empty()) {
- int32_t bone = skin->get_bind_bone(bind_i);
- godot_bone_name = skeleton->get_bone_name(bone);
- }
- if (skeleton->find_bone(godot_bone_name) == -1) {
- godot_bone_name = skeleton->get_bone_name(0);
- }
- BoneId bone_index = skeleton->find_bone(godot_bone_name);
- ERR_CONTINUE(bone_index == -1);
- Ref<GLTFNode> joint_node;
- joint_node.instantiate();
- String gltf_bone_name = _gen_unique_bone_name(state, skeleton_gltf_i, godot_bone_name);
- joint_node->set_name(gltf_bone_name);
-
- Transform3D bone_rest_xform = skeleton->get_bone_rest(bone_index);
- joint_node->scale = bone_rest_xform.basis.get_scale();
- joint_node->rotation = bone_rest_xform.basis.get_rotation_quaternion();
- joint_node->position = bone_rest_xform.origin;
- joint_node->joint = true;
-
- int32_t joint_node_i = state->nodes.size();
- state->nodes.push_back(joint_node);
- gltf_skeleton->godot_bone_node.insert(bone_index, joint_node_i);
- int32_t joint_index = gltf_skin->joints.size();
- gltf_skin->joint_i_to_bone_i.insert(joint_index, bone_index);
- gltf_skin->joints.push_back(joint_node_i);
- gltf_skin->joints_original.push_back(joint_node_i);
- gltf_skin->inverse_binds.push_back(skin->get_bind_pose(bind_i));
- json_joints.push_back(joint_node_i);
- for (Map<GLTFNodeIndex, Node *>::Element *skin_scene_node_i = state->scene_nodes.front(); skin_scene_node_i; skin_scene_node_i = skin_scene_node_i->next()) {
- if (skin_scene_node_i->get() == skeleton) {
- gltf_skin->skin_root = skin_scene_node_i->key();
- json_skin["skeleton"] = skin_scene_node_i->key();
- }
- }
- gltf_skin->godot_skin = skin;
- gltf_skin->set_name(_gen_unique_name(state, skin->get_name()));
- }
- for (int32_t bind_i = 0; bind_i < skin->get_bind_count(); bind_i++) {
- String bone_name = skeleton->get_bone_name(bind_i);
- String godot_bone_name = skin->get_bind_name(bind_i);
- int32_t bone = -1;
- if (skin->get_bind_bone(bind_i) != -1) {
- bone = skin->get_bind_bone(bind_i);
- godot_bone_name = skeleton->get_bone_name(bone);
- }
- bone = skeleton->find_bone(godot_bone_name);
- if (bone == -1) {
- continue;
- }
- BoneId bone_parent = skeleton->get_bone_parent(bone);
- GLTFNodeIndex joint_node_i = gltf_skeleton->godot_bone_node[bone];
- ERR_CONTINUE(joint_node_i >= state->nodes.size());
- if (bone_parent != -1) {
- GLTFNodeIndex parent_joint_gltf_node = gltf_skin->joints[bone_parent];
- Ref<GLTFNode> parent_joint_node = state->nodes.write[parent_joint_gltf_node];
- parent_joint_node->children.push_back(joint_node_i);
+ Node *skel_node = mi->get_node_or_null(skeleton_path);
+ Skeleton3D *godot_skeleton = nullptr;
+ if (skel_node != nullptr) {
+ godot_skeleton = cast_to<Skeleton3D>(skel_node);
+ }
+ if (godot_skeleton != nullptr && state->skeleton3d_to_gltf_skeleton.has(godot_skeleton->get_instance_id())) {
+ // This is a skinned mesh. If the mesh has no ARRAY_WEIGHTS or ARRAY_BONES, it will be invisible.
+ const GLTFSkeletonIndex skeleton_gltf_i = state->skeleton3d_to_gltf_skeleton[godot_skeleton->get_instance_id()];
+ Ref<GLTFSkeleton> gltf_skeleton = state->skeletons[skeleton_gltf_i];
+ int bone_cnt = skeleton->get_bone_count();
+ ERR_FAIL_COND(bone_cnt != gltf_skeleton->joints.size());
+
+ ObjectID gltf_skin_key = skin->get_instance_id();
+ ObjectID gltf_skel_key = godot_skeleton->get_instance_id();
+ GLTFSkinIndex skin_gltf_i = -1;
+ GLTFNodeIndex root_gltf_i = -1;
+ if (!gltf_skeleton->roots.is_empty()) {
+ root_gltf_i = gltf_skeleton->roots[0];
+ }
+ if (state->skin_and_skeleton3d_to_gltf_skin.has(gltf_skin_key) && state->skin_and_skeleton3d_to_gltf_skin[gltf_skin_key].has(gltf_skel_key)) {
+ skin_gltf_i = state->skin_and_skeleton3d_to_gltf_skin[gltf_skin_key][gltf_skel_key];
} else {
- Node *node_parent = skeleton->get_parent();
- ERR_CONTINUE(!node_parent);
- for (Map<GLTFNodeIndex, Node *>::Element *E = state->scene_nodes.front(); E; E = E->next()) {
- if (E->get() == node_parent) {
- GLTFNodeIndex gltf_node_i = E->key();
- Ref<GLTFNode> gltf_node = state->nodes.write[gltf_node_i];
- gltf_node->children.push_back(joint_node_i);
- break;
+ if (skin.is_null()) {
+ // Note that gltf_skin_key should remain null, so these can share a reference.
+ skin = skeleton->register_skin(nullptr)->get_skin();
+ }
+ gltf_skin.instantiate();
+ gltf_skin->godot_skin = skin;
+ gltf_skin->set_name(skin->get_name());
+ gltf_skin->skeleton = skeleton_gltf_i;
+ gltf_skin->skin_root = root_gltf_i;
+ //gltf_state->godot_to_gltf_node[skel_node]
+ HashMap<StringName, int> bone_name_to_idx;
+ for (int bone_i = 0; bone_i < bone_cnt; bone_i++) {
+ bone_name_to_idx[skeleton->get_bone_name(bone_i)] = bone_i;
+ }
+ for (int bind_i = 0, cnt = skin->get_bind_count(); bind_i < cnt; bind_i++) {
+ int bone_i = skin->get_bind_bone(bind_i);
+ Transform3D bind_pose = skin->get_bind_pose(bind_i);
+ StringName bind_name = skin->get_bind_name(bind_i);
+ if (bind_name != StringName()) {
+ bone_i = bone_name_to_idx[bind_name];
}
+ ERR_CONTINUE(bone_i < 0 || bone_i >= bone_cnt);
+ if (bind_name == StringName()) {
+ bind_name = skeleton->get_bone_name(bone_i);
+ }
+ GLTFNodeIndex skeleton_bone_i = gltf_skeleton->joints[bone_i];
+ gltf_skin->joints_original.push_back(skeleton_bone_i);
+ gltf_skin->joints.push_back(skeleton_bone_i);
+ gltf_skin->inverse_binds.push_back(bind_pose);
+ if (skeleton->get_bone_parent(bone_i) == -1) {
+ gltf_skin->roots.push_back(skeleton_bone_i);
+ }
+ gltf_skin->joint_i_to_bone_i[bind_i] = bone_i;
+ gltf_skin->joint_i_to_name[bind_i] = bind_name;
}
+ skin_gltf_i = state->skins.size();
+ state->skins.push_back(gltf_skin);
+ state->skin_and_skeleton3d_to_gltf_skin[gltf_skin_key][gltf_skel_key] = skin_gltf_i;
}
+ node->skin = skin_gltf_i;
+ node->skeleton = skeleton_gltf_i;
}
- _expand_skin(state, gltf_skin);
- node->skin = state->skins.size();
- state->skins.push_back(gltf_skin);
-
- json_skin["inverseBindMatrices"] = _encode_accessor_as_xform(state, gltf_skin->inverse_binds, false);
- json_skin["joints"] = json_joints;
- json_skin["name"] = gltf_skin->get_name();
- json_skins.push_back(json_skin);
- state->json["skins"] = json_skins;
}
}
@@ -6132,7 +6144,6 @@ GLTFAnimation::Track GLTFDocument::_convert_animation_track(Ref<GLTFState> state
for (int32_t key_i = 0; key_i < key_count; key_i++) {
times.write[key_i] = p_animation->track_get_key_time(p_track_i, key_i);
}
- const float BAKE_FPS = 30.0f;
if (track_type == Animation::TYPE_TRANSFORM3D) {
p_track.position_track.times = times;
p_track.position_track.interpolation = gltf_interpolation;
@@ -6370,69 +6381,58 @@ void GLTFDocument::_convert_animation(Ref<GLTFState> state, AnimationPlayer *ap,
const Vector<String> node_suffix = String(orig_track_path).split(":blend_shapes/");
const NodePath path = node_suffix[0];
const String suffix = node_suffix[1];
- const Node *node = ap->get_parent()->get_node_or_null(path);
- for (Map<GLTFNodeIndex, Node *>::Element *transform_track_i = state->scene_nodes.front(); transform_track_i; transform_track_i = transform_track_i->next()) {
- if (transform_track_i->get() == node) {
- const MeshInstance3D *mi = Object::cast_to<MeshInstance3D>(node);
- if (!mi) {
- continue;
- }
- Ref<ArrayMesh> array_mesh = mi->get_mesh();
- if (array_mesh.is_null()) {
+ Node *node = ap->get_parent()->get_node_or_null(path);
+ MeshInstance3D *mi = cast_to<MeshInstance3D>(node);
+ Ref<Mesh> mesh = mi->get_mesh();
+ ERR_CONTINUE(mesh.is_null());
+ int32_t mesh_index = -1;
+ for (Map<GLTFNodeIndex, Node *>::Element *mesh_track_i = state->scene_nodes.front(); mesh_track_i; mesh_track_i = mesh_track_i->next()) {
+ if (mesh_track_i->get() == node) {
+ mesh_index = mesh_track_i->key();
+ }
+ }
+ ERR_CONTINUE(mesh_index == -1);
+ Map<int, GLTFAnimation::Track> &tracks = gltf_animation->get_tracks();
+ GLTFAnimation::Track track = gltf_animation->get_tracks().has(mesh_index) ? gltf_animation->get_tracks()[mesh_index] : GLTFAnimation::Track();
+ if (!tracks.has(mesh_index)) {
+ for (int32_t shape_i = 0; shape_i < mesh->get_blend_shape_count(); shape_i++) {
+ String shape_name = mesh->get_blend_shape_name(shape_i);
+ NodePath shape_path = String(path) + ":blend_shapes/" + shape_name;
+ int32_t shape_track_i = animation->find_track(shape_path);
+ if (shape_track_i == -1) {
+ GLTFAnimation::Channel<float> weight;
+ weight.interpolation = GLTFAnimation::INTERP_LINEAR;
+ weight.times.push_back(0.0f);
+ weight.times.push_back(0.0f);
+ weight.values.push_back(0.0f);
+ weight.values.push_back(0.0f);
+ track.weight_tracks.push_back(weight);
continue;
}
- if (node_suffix.size() != 2) {
- continue;
+ Animation::InterpolationType interpolation = animation->track_get_interpolation_type(track_i);
+ GLTFAnimation::Interpolation gltf_interpolation = GLTFAnimation::INTERP_LINEAR;
+ if (interpolation == Animation::InterpolationType::INTERPOLATION_LINEAR) {
+ gltf_interpolation = GLTFAnimation::INTERP_LINEAR;
+ } else if (interpolation == Animation::InterpolationType::INTERPOLATION_NEAREST) {
+ gltf_interpolation = GLTFAnimation::INTERP_STEP;
+ } else if (interpolation == Animation::InterpolationType::INTERPOLATION_CUBIC) {
+ gltf_interpolation = GLTFAnimation::INTERP_CUBIC_SPLINE;
}
- GLTFNodeIndex mesh_index = -1;
- for (GLTFNodeIndex node_i = 0; node_i < state->scene_nodes.size(); node_i++) {
- if (state->scene_nodes[node_i] == node) {
- mesh_index = node_i;
- break;
- }
+ int32_t key_count = animation->track_get_key_count(shape_track_i);
+ GLTFAnimation::Channel<float> weight;
+ weight.interpolation = gltf_interpolation;
+ weight.times.resize(key_count);
+ for (int32_t time_i = 0; time_i < key_count; time_i++) {
+ weight.times.write[time_i] = animation->track_get_key_time(shape_track_i, time_i);
}
- ERR_CONTINUE(mesh_index == -1);
- Ref<Mesh> mesh = mi->get_mesh();
- ERR_CONTINUE(mesh.is_null());
- for (int32_t shape_i = 0; shape_i < mesh->get_blend_shape_count(); shape_i++) {
- if (mesh->get_blend_shape_name(shape_i) != suffix) {
- continue;
- }
- GLTFAnimation::Track track;
- Map<int, GLTFAnimation::Track>::Element *blend_shape_track_i = gltf_animation->get_tracks().find(mesh_index);
- if (blend_shape_track_i) {
- track = blend_shape_track_i->get();
- }
- Animation::InterpolationType interpolation = animation->track_get_interpolation_type(track_i);
-
- GLTFAnimation::Interpolation gltf_interpolation = GLTFAnimation::INTERP_LINEAR;
- if (interpolation == Animation::InterpolationType::INTERPOLATION_LINEAR) {
- gltf_interpolation = GLTFAnimation::INTERP_LINEAR;
- } else if (interpolation == Animation::InterpolationType::INTERPOLATION_NEAREST) {
- gltf_interpolation = GLTFAnimation::INTERP_STEP;
- } else if (interpolation == Animation::InterpolationType::INTERPOLATION_CUBIC) {
- gltf_interpolation = GLTFAnimation::INTERP_CUBIC_SPLINE;
- }
- Animation::TrackType track_type = animation->track_get_type(track_i);
- if (track_type == Animation::TYPE_VALUE) {
- int32_t key_count = animation->track_get_key_count(track_i);
- GLTFAnimation::Channel<float> weight;
- weight.interpolation = gltf_interpolation;
- weight.times.resize(key_count);
- for (int32_t time_i = 0; time_i < key_count; time_i++) {
- weight.times.write[time_i] = animation->track_get_key_time(track_i, time_i);
- }
- weight.values.resize(key_count);
- for (int32_t value_i = 0; value_i < key_count; value_i++) {
- weight.values.write[value_i] = animation->track_get_key_value(track_i, value_i);
- }
- track.weight_tracks.push_back(weight);
- }
- gltf_animation->get_tracks()[mesh_index] = track;
+ weight.values.resize(key_count);
+ for (int32_t value_i = 0; value_i < key_count; value_i++) {
+ weight.values.write[value_i] = animation->track_get_key_value(shape_track_i, value_i);
}
+ track.weight_tracks.push_back(weight);
}
+ tracks[mesh_index] = track;
}
-
} else if (String(orig_track_path).find(":") != -1) {
//Process skeleton
const Vector<String> node_suffix = String(orig_track_path).split(":");