/**************************************************************************/ /* webxr_interface_js.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 "webxr_interface_js.h" #ifdef WEB_ENABLED #include "godot_webxr.h" #include "core/input/input.h" #include "core/os/os.h" #include "drivers/gles3/storage/texture_storage.h" #include "scene/main/scene_tree.h" #include "scene/main/window.h" #include "scene/scene_string_names.h" #include "servers/rendering/renderer_compositor.h" #include "servers/rendering/rendering_server_globals.h" #include "servers/xr/xr_hand_tracker.h" #include #include void _emwebxr_on_session_supported(char *p_session_mode, int p_supported) { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL(xr_server); Ref interface = xr_server->find_interface("WebXR"); ERR_FAIL_COND(interface.is_null()); String session_mode = String(p_session_mode); interface->emit_signal(SNAME("session_supported"), session_mode, p_supported ? true : false); } void _emwebxr_on_session_started(char *p_reference_space_type, char *p_enabled_features, char *p_environment_blend_mode) { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL(xr_server); Ref interface = xr_server->find_interface("WebXR"); ERR_FAIL_COND(interface.is_null()); String reference_space_type = String(p_reference_space_type); interface->_set_reference_space_type(reference_space_type); interface->_set_enabled_features(p_enabled_features); interface->_set_environment_blend_mode(p_environment_blend_mode); interface->emit_signal(SNAME("session_started")); } void _emwebxr_on_session_ended() { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL(xr_server); Ref interface = xr_server->find_interface("WebXR"); ERR_FAIL_COND(interface.is_null()); interface->uninitialize(); interface->emit_signal(SNAME("session_ended")); } void _emwebxr_on_session_failed(char *p_message) { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL(xr_server); Ref interface = xr_server->find_interface("WebXR"); ERR_FAIL_COND(interface.is_null()); interface->uninitialize(); String message = String(p_message); interface->emit_signal(SNAME("session_failed"), message); } extern "C" EMSCRIPTEN_KEEPALIVE void _emwebxr_on_input_event(int p_event_type, int p_input_source_id) { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL(xr_server); Ref interface = xr_server->find_interface("WebXR"); ERR_FAIL_COND(interface.is_null()); interface->_on_input_event(p_event_type, p_input_source_id); } extern "C" EMSCRIPTEN_KEEPALIVE void _emwebxr_on_simple_event(char *p_signal_name) { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL(xr_server); Ref interface = xr_server->find_interface("WebXR"); ERR_FAIL_COND(interface.is_null()); StringName signal_name = StringName(p_signal_name); interface->emit_signal(signal_name); } void WebXRInterfaceJS::is_session_supported(const String &p_session_mode) { godot_webxr_is_session_supported(p_session_mode.utf8().get_data(), &_emwebxr_on_session_supported); } void WebXRInterfaceJS::set_session_mode(String p_session_mode) { session_mode = p_session_mode; } String WebXRInterfaceJS::get_session_mode() const { return session_mode; } void WebXRInterfaceJS::set_required_features(String p_required_features) { required_features = p_required_features; } String WebXRInterfaceJS::get_required_features() const { return required_features; } void WebXRInterfaceJS::set_optional_features(String p_optional_features) { optional_features = p_optional_features; } String WebXRInterfaceJS::get_optional_features() const { return optional_features; } void WebXRInterfaceJS::set_requested_reference_space_types(String p_requested_reference_space_types) { requested_reference_space_types = p_requested_reference_space_types; } String WebXRInterfaceJS::get_requested_reference_space_types() const { return requested_reference_space_types; } String WebXRInterfaceJS::get_reference_space_type() const { return reference_space_type; } String WebXRInterfaceJS::get_enabled_features() const { return enabled_features; } bool WebXRInterfaceJS::is_input_source_active(int p_input_source_id) const { ERR_FAIL_INDEX_V(p_input_source_id, input_source_count, false); return input_sources[p_input_source_id].active; } Ref WebXRInterfaceJS::get_input_source_tracker(int p_input_source_id) const { ERR_FAIL_INDEX_V(p_input_source_id, input_source_count, Ref()); return input_sources[p_input_source_id].tracker; } WebXRInterface::TargetRayMode WebXRInterfaceJS::get_input_source_target_ray_mode(int p_input_source_id) const { ERR_FAIL_INDEX_V(p_input_source_id, input_source_count, WebXRInterface::TARGET_RAY_MODE_UNKNOWN); if (!input_sources[p_input_source_id].active) { return WebXRInterface::TARGET_RAY_MODE_UNKNOWN; } return input_sources[p_input_source_id].target_ray_mode; } String WebXRInterfaceJS::get_visibility_state() const { char *c_str = godot_webxr_get_visibility_state(); if (c_str) { String visibility_state = String(c_str); free(c_str); return visibility_state; } return String(); } PackedVector3Array WebXRInterfaceJS::get_play_area() const { PackedVector3Array ret; float *points; int point_count = godot_webxr_get_bounds_geometry(&points); if (point_count > 0) { ret.resize(point_count); for (int i = 0; i < point_count; i++) { float *js_vector3 = points + (i * 3); ret.set(i, Vector3(js_vector3[0], js_vector3[1], js_vector3[2])); } free(points); } return ret; } float WebXRInterfaceJS::get_display_refresh_rate() const { return godot_webxr_get_frame_rate(); } void WebXRInterfaceJS::set_display_refresh_rate(float p_refresh_rate) { godot_webxr_update_target_frame_rate(p_refresh_rate); } Array WebXRInterfaceJS::get_available_display_refresh_rates() const { Array ret; float *rates; int rate_count = godot_webxr_get_supported_frame_rates(&rates); if (rate_count > 0) { ret.resize(rate_count); for (int i = 0; i < rate_count; i++) { ret[i] = rates[i]; } free(rates); } return ret; } Array WebXRInterfaceJS::get_supported_environment_blend_modes() { Array blend_modes; // The blend mode can't be changed, so return the current blend mode as the only supported one. blend_modes.push_back(environment_blend_mode); return blend_modes; } XRInterface::EnvironmentBlendMode WebXRInterfaceJS::get_environment_blend_mode() const { return environment_blend_mode; } bool WebXRInterfaceJS::set_environment_blend_mode(EnvironmentBlendMode p_new_environment_blend_mode) { if (environment_blend_mode == p_new_environment_blend_mode) { // Environment blend mode can't be changed, but we'll consider it a success to set it // to what it already is. return true; } return false; } void WebXRInterfaceJS::_set_environment_blend_mode(String p_blend_mode_string) { if (p_blend_mode_string == "opaque") { environment_blend_mode = XRInterface::XR_ENV_BLEND_MODE_OPAQUE; } else if (p_blend_mode_string == "additive") { environment_blend_mode = XRInterface::XR_ENV_BLEND_MODE_ADDITIVE; } else if (p_blend_mode_string == "alpha-blend") { environment_blend_mode = XRInterface::XR_ENV_BLEND_MODE_ALPHA_BLEND; } else { // Not all browsers can give us this information, so as a fallback, // we'll make some guesses about the blend mode. if (session_mode == "immersive-ar") { environment_blend_mode = XRInterface::XR_ENV_BLEND_MODE_ALPHA_BLEND; } else { environment_blend_mode = XRInterface::XR_ENV_BLEND_MODE_OPAQUE; } } } StringName WebXRInterfaceJS::get_name() const { return "WebXR"; } uint32_t WebXRInterfaceJS::get_capabilities() const { return XRInterface::XR_STEREO | XRInterface::XR_MONO | XRInterface::XR_VR | XRInterface::XR_AR; } uint32_t WebXRInterfaceJS::get_view_count() { return godot_webxr_get_view_count(); } bool WebXRInterfaceJS::is_initialized() const { return (initialized); } bool WebXRInterfaceJS::initialize() { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL_V(xr_server, false); if (!initialized) { if (!godot_webxr_is_supported()) { return false; } if (requested_reference_space_types.size() == 0) { return false; } enabled_features.clear(); // We must create a tracker for our head. head_transform.basis = Basis(); head_transform.origin = Vector3(); head_tracker.instantiate(); head_tracker->set_tracker_type(XRServer::TRACKER_HEAD); head_tracker->set_tracker_name("head"); head_tracker->set_tracker_desc("Players head"); xr_server->add_tracker(head_tracker); // Make this our primary interface. xr_server->set_primary_interface(this); // Clear render_targetsize to make sure it gets reset to the new size. // Clearing in uninitialize() doesn't work because a frame can still be // rendered after it's called, which will fill render_targetsize again. render_targetsize.width = 0; render_targetsize.height = 0; initialized = true; godot_webxr_initialize( session_mode.utf8().get_data(), required_features.utf8().get_data(), optional_features.utf8().get_data(), requested_reference_space_types.utf8().get_data(), &_emwebxr_on_session_started, &_emwebxr_on_session_ended, &_emwebxr_on_session_failed, &_emwebxr_on_input_event, &_emwebxr_on_simple_event); }; return true; } void WebXRInterfaceJS::uninitialize() { if (initialized) { XRServer *xr_server = XRServer::get_singleton(); if (xr_server != nullptr) { if (head_tracker.is_valid()) { xr_server->remove_tracker(head_tracker); head_tracker.unref(); } for (int i = 0; i < HAND_MAX; i++) { if (hand_trackers[i].is_valid()) { xr_server->remove_tracker(hand_trackers[i]); hand_trackers[i].unref(); } } if (xr_server->get_primary_interface() == this) { // no longer our primary interface xr_server->set_primary_interface(nullptr); } } godot_webxr_uninitialize(); GLES3::TextureStorage *texture_storage = GLES3::TextureStorage::get_singleton(); if (texture_storage != nullptr) { for (KeyValue &E : texture_cache) { // Forcibly mark as not part of a render target so we can free it. GLES3::Texture *texture = texture_storage->get_texture(E.value); texture->is_render_target = false; texture_storage->texture_free(E.value); } } texture_cache.clear(); reference_space_type.clear(); enabled_features.clear(); environment_blend_mode = XRInterface::XR_ENV_BLEND_MODE_OPAQUE; initialized = false; }; } Dictionary WebXRInterfaceJS::get_system_info() { Dictionary dict; // TODO get actual information from WebXR to return here dict[SNAME("XRRuntimeName")] = String("WebXR"); dict[SNAME("XRRuntimeVersion")] = String(""); return dict; } Transform3D WebXRInterfaceJS::_js_matrix_to_transform(float *p_js_matrix) { Transform3D transform; transform.basis.rows[0].x = p_js_matrix[0]; transform.basis.rows[1].x = p_js_matrix[1]; transform.basis.rows[2].x = p_js_matrix[2]; transform.basis.rows[0].y = p_js_matrix[4]; transform.basis.rows[1].y = p_js_matrix[5]; transform.basis.rows[2].y = p_js_matrix[6]; transform.basis.rows[0].z = p_js_matrix[8]; transform.basis.rows[1].z = p_js_matrix[9]; transform.basis.rows[2].z = p_js_matrix[10]; transform.origin.x = p_js_matrix[12]; transform.origin.y = p_js_matrix[13]; transform.origin.z = p_js_matrix[14]; return transform; } Size2 WebXRInterfaceJS::get_render_target_size() { if (render_targetsize.width != 0 && render_targetsize.height != 0) { return render_targetsize; } int js_size[2]; bool has_size = godot_webxr_get_render_target_size(js_size); if (!initialized || !has_size) { // As a temporary default (until WebXR is fully initialized), use the // window size. return DisplayServer::get_singleton()->window_get_size(); } render_targetsize.width = (float)js_size[0]; render_targetsize.height = (float)js_size[1]; return render_targetsize; } Transform3D WebXRInterfaceJS::get_camera_transform() { Transform3D camera_transform; XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL_V(xr_server, camera_transform); if (initialized) { double world_scale = xr_server->get_world_scale(); Transform3D _head_transform = head_transform; _head_transform.origin *= world_scale; camera_transform = (xr_server->get_reference_frame()) * _head_transform; } return camera_transform; } Transform3D WebXRInterfaceJS::get_transform_for_view(uint32_t p_view, const Transform3D &p_cam_transform) { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL_V(xr_server, p_cam_transform); ERR_FAIL_COND_V(!initialized, p_cam_transform); float js_matrix[16]; bool has_transform = godot_webxr_get_transform_for_view(p_view, js_matrix); if (!has_transform) { return p_cam_transform; } Transform3D transform_for_view = _js_matrix_to_transform(js_matrix); double world_scale = xr_server->get_world_scale(); transform_for_view.origin *= world_scale; return p_cam_transform * xr_server->get_reference_frame() * transform_for_view; } Projection WebXRInterfaceJS::get_projection_for_view(uint32_t p_view, double p_aspect, double p_z_near, double p_z_far) { Projection view; ERR_FAIL_COND_V(!initialized, view); float js_matrix[16]; bool has_projection = godot_webxr_get_projection_for_view(p_view, js_matrix); if (!has_projection) { return view; } int k = 0; for (int i = 0; i < 4; i++) { for (int j = 0; j < 4; j++) { view.columns[i][j] = js_matrix[k++]; } } // Copied from godot_oculus_mobile's ovr_mobile_session.cpp view.columns[2][2] = -(p_z_far + p_z_near) / (p_z_far - p_z_near); view.columns[3][2] = -(2.0f * p_z_far * p_z_near) / (p_z_far - p_z_near); return view; } bool WebXRInterfaceJS::pre_draw_viewport(RID p_render_target) { GLES3::TextureStorage *texture_storage = GLES3::TextureStorage::get_singleton(); if (texture_storage == nullptr) { return false; } // Cache the resources so we don't have to get them from JS twice. color_texture = _get_color_texture(); depth_texture = _get_depth_texture(); // Per the WebXR spec, it returns "opaque textures" to us, which may be the // same WebGLTexture object (which would be the same GLuint in C++) but // represent a different underlying resource (probably the next texture in // the XR device's swap chain). In order to render to this texture, we need // to re-attach it to the FBO, otherwise we get an "incomplete FBO" error. // // See: https://immersive-web.github.io/layers/#xropaquetextures // // So, even if the color and depth textures have the same GLuint as the last // frame, we need to re-attach them again. texture_storage->render_target_set_reattach_textures(p_render_target, true); return true; } Vector WebXRInterfaceJS::post_draw_viewport(RID p_render_target, const Rect2 &p_screen_rect) { Vector blit_to_screen; GLES3::TextureStorage *texture_storage = GLES3::TextureStorage::get_singleton(); if (texture_storage == nullptr) { return blit_to_screen; } texture_storage->render_target_set_reattach_textures(p_render_target, false); return blit_to_screen; } RID WebXRInterfaceJS::_get_color_texture() { unsigned int texture_id = godot_webxr_get_color_texture(); if (texture_id == 0) { return RID(); } return _get_texture(texture_id); } RID WebXRInterfaceJS::_get_depth_texture() { unsigned int texture_id = godot_webxr_get_depth_texture(); if (texture_id == 0) { return RID(); } return _get_texture(texture_id); } RID WebXRInterfaceJS::_get_texture(unsigned int p_texture_id) { RBMap::Element *cache = texture_cache.find(p_texture_id); if (cache != nullptr) { return cache->get(); } GLES3::TextureStorage *texture_storage = GLES3::TextureStorage::get_singleton(); if (texture_storage == nullptr) { return RID(); } uint32_t view_count = godot_webxr_get_view_count(); Size2 texture_size = get_render_target_size(); RID texture = texture_storage->texture_create_from_native_handle( view_count == 1 ? RS::TEXTURE_TYPE_2D : RS::TEXTURE_TYPE_LAYERED, Image::FORMAT_RGBA8, p_texture_id, (int)texture_size.width, (int)texture_size.height, 1, view_count); texture_cache.insert(p_texture_id, texture); return texture; } RID WebXRInterfaceJS::get_color_texture() { return color_texture; } RID WebXRInterfaceJS::get_depth_texture() { return depth_texture; } RID WebXRInterfaceJS::get_velocity_texture() { unsigned int texture_id = godot_webxr_get_velocity_texture(); if (texture_id == 0) { return RID(); } return _get_texture(texture_id); } void WebXRInterfaceJS::process() { if (initialized) { // Get the "head" position. float js_matrix[16]; if (godot_webxr_get_transform_for_view(-1, js_matrix)) { head_transform = _js_matrix_to_transform(js_matrix); } if (head_tracker.is_valid()) { head_tracker->set_pose("default", head_transform, Vector3(), Vector3()); } // Update all input sources. for (int i = 0; i < input_source_count; i++) { _update_input_source(i); } }; } void WebXRInterfaceJS::_update_input_source(int p_input_source_id) { XRServer *xr_server = XRServer::get_singleton(); ERR_FAIL_NULL(xr_server); InputSource &input_source = input_sources[p_input_source_id]; float target_pose[16]; int tmp_target_ray_mode; int touch_index; int has_grip_pose; float grip_pose[16]; int has_standard_mapping; int button_count; float buttons[10]; int axes_count; float axes[10]; int has_hand_data; float hand_joints[WEBXR_HAND_JOINT_MAX * 16]; float hand_radii[WEBXR_HAND_JOINT_MAX]; input_source.active = godot_webxr_update_input_source( p_input_source_id, target_pose, &tmp_target_ray_mode, &touch_index, &has_grip_pose, grip_pose, &has_standard_mapping, &button_count, buttons, &axes_count, axes, &has_hand_data, hand_joints, hand_radii); if (!input_source.active) { if (input_source.tracker.is_valid()) { xr_server->remove_tracker(input_source.tracker); input_source.tracker.unref(); } return; } input_source.target_ray_mode = (WebXRInterface::TargetRayMode)tmp_target_ray_mode; input_source.touch_index = touch_index; Ref &tracker = input_source.tracker; if (tracker.is_null()) { tracker.instantiate(); StringName tracker_name; if (input_source.target_ray_mode == WebXRInterface::TargetRayMode::TARGET_RAY_MODE_SCREEN) { tracker_name = touch_names[touch_index]; } else { tracker_name = tracker_names[p_input_source_id]; } // Input source id's 0 and 1 are always the left and right hands. if (p_input_source_id < 2) { tracker->set_tracker_name(tracker_name); tracker->set_tracker_desc(p_input_source_id == 0 ? "Left hand controller" : "Right hand controller"); tracker->set_tracker_hand(p_input_source_id == 0 ? XRPositionalTracker::TRACKER_HAND_LEFT : XRPositionalTracker::TRACKER_HAND_RIGHT); } else { tracker->set_tracker_name(tracker_name); tracker->set_tracker_desc(tracker_name); } xr_server->add_tracker(tracker); } Transform3D aim_transform = _js_matrix_to_transform(target_pose); tracker->set_pose(SceneStringName(default_), aim_transform, Vector3(), Vector3()); tracker->set_pose(SNAME("aim"), aim_transform, Vector3(), Vector3()); if (has_grip_pose) { tracker->set_pose(SNAME("grip"), _js_matrix_to_transform(grip_pose), Vector3(), Vector3()); } for (int i = 0; i < button_count; i++) { StringName button_name = has_standard_mapping ? standard_button_names[i] : unknown_button_names[i]; StringName button_pressure_name = has_standard_mapping ? standard_button_pressure_names[i] : unknown_button_pressure_names[i]; float value = buttons[i]; bool state = value > 0.0; tracker->set_input(button_name, state); tracker->set_input(button_pressure_name, value); } for (int i = 0; i < axes_count; i++) { StringName axis_name = has_standard_mapping ? standard_axis_names[i] : unknown_axis_names[i]; float value = axes[i]; if (has_standard_mapping && (i == 1 || i == 3)) { // Invert the Y-axis on thumbsticks and trackpads, in order to // match OpenXR and other XR platform SDKs. value = -value; } tracker->set_input(axis_name, value); } // Also create Vector2's for the thumbstick and trackpad when we have the // standard mapping. if (has_standard_mapping) { if (axes_count >= 2) { tracker->set_input(standard_vector_names[0], Vector2(axes[0], -axes[1])); } if (axes_count >= 4) { tracker->set_input(standard_vector_names[1], Vector2(axes[2], -axes[3])); } } if (input_source.target_ray_mode == WebXRInterface::TARGET_RAY_MODE_SCREEN) { if (touch_index < 5 && axes_count >= 2) { Vector2 joy_vector = Vector2(axes[0], axes[1]); Vector2 position = _get_screen_position_from_joy_vector(joy_vector); if (touches[touch_index].is_touching) { Vector2 delta = position - touches[touch_index].position; // If position has changed by at least 1 pixel, generate a drag event. if (abs(delta.x) >= 1.0 || abs(delta.y) >= 1.0) { Ref event; event.instantiate(); event->set_index(touch_index); event->set_position(position); event->set_relative(delta); event->set_relative_screen_position(delta); Input::get_singleton()->parse_input_event(event); } } touches[touch_index].position = position; } } if (p_input_source_id < 2) { Ref hand_tracker = hand_trackers[p_input_source_id]; if (has_hand_data) { // Transform orientations to match Godot Humanoid skeleton. const Basis bone_adjustment( Vector3(-1.0, 0.0, 0.0), Vector3(0.0, 0.0, -1.0), Vector3(0.0, -1.0, 0.0)); if (unlikely(hand_tracker.is_null())) { hand_tracker.instantiate(); hand_tracker->set_tracker_hand(p_input_source_id == 0 ? XRPositionalTracker::TRACKER_HAND_LEFT : XRPositionalTracker::TRACKER_HAND_RIGHT); hand_tracker->set_tracker_name(p_input_source_id == 0 ? "/user/hand_tracker/left" : "/user/hand_tracker/right"); // These flags always apply, since WebXR doesn't give us enough insight to be more fine grained. BitField joint_flags(XRHandTracker::HAND_JOINT_FLAG_POSITION_VALID | XRHandTracker::HAND_JOINT_FLAG_ORIENTATION_VALID | XRHandTracker::HAND_JOINT_FLAG_POSITION_TRACKED | XRHandTracker::HAND_JOINT_FLAG_ORIENTATION_TRACKED); for (int godot_joint = 0; godot_joint < XRHandTracker::HAND_JOINT_MAX; godot_joint++) { hand_tracker->set_hand_joint_flags((XRHandTracker::HandJoint)godot_joint, joint_flags); } hand_trackers[p_input_source_id] = hand_tracker; xr_server->add_tracker(hand_tracker); } hand_tracker->set_has_tracking_data(true); for (int webxr_joint = 0; webxr_joint < WEBXR_HAND_JOINT_MAX; webxr_joint++) { XRHandTracker::HandJoint godot_joint = (XRHandTracker::HandJoint)(webxr_joint + 1); Transform3D joint_transform = _js_matrix_to_transform(hand_joints + (16 * webxr_joint)); joint_transform.basis *= bone_adjustment; hand_tracker->set_hand_joint_transform(godot_joint, joint_transform); hand_tracker->set_hand_joint_radius(godot_joint, hand_radii[webxr_joint]); } // WebXR doesn't have a palm joint, so we calculate it by finding the middle of the middle finger metacarpal bone. { // Start by getting the middle finger metacarpal joint. // Note: 10 is the WebXR middle finger metacarpal joint. Transform3D palm_transform = _js_matrix_to_transform(hand_joints + (10 * 16)); palm_transform.basis *= bone_adjustment; // Get the middle finger phalanx position. // Note: 11 is the WebXR middle finger phalanx proximal joint and 12 is the origin offset. const float *phalanx_pos = hand_joints + (11 * 16) + 12; Vector3 phalanx(phalanx_pos[0], phalanx_pos[1], phalanx_pos[2]); // Offset the palm half-way towards the phalanx joint. palm_transform.origin = (palm_transform.origin + phalanx) / 2.0; // Set the palm joint and the pose. hand_tracker->set_hand_joint_transform(XRHandTracker::HAND_JOINT_PALM, palm_transform); hand_tracker->set_pose("default", palm_transform, Vector3(), Vector3()); } } else if (hand_tracker.is_valid()) { hand_tracker->set_has_tracking_data(false); hand_tracker->invalidate_pose("default"); } } } void WebXRInterfaceJS::_on_input_event(int p_event_type, int p_input_source_id) { // Get the latest data for this input source. For transient input sources, // we may not have any data at all yet! _update_input_source(p_input_source_id); if (p_event_type == WEBXR_INPUT_EVENT_SELECTSTART || p_event_type == WEBXR_INPUT_EVENT_SELECTEND) { const InputSource &input_source = input_sources[p_input_source_id]; if (input_source.target_ray_mode == WebXRInterface::TARGET_RAY_MODE_SCREEN) { int touch_index = input_source.touch_index; if (touch_index >= 0 && touch_index < 5) { touches[touch_index].is_touching = (p_event_type == WEBXR_INPUT_EVENT_SELECTSTART); Ref event; event.instantiate(); event->set_index(touch_index); event->set_position(touches[touch_index].position); event->set_pressed(p_event_type == WEBXR_INPUT_EVENT_SELECTSTART); Input::get_singleton()->parse_input_event(event); } } } switch (p_event_type) { case WEBXR_INPUT_EVENT_SELECTSTART: emit_signal("selectstart", p_input_source_id); break; case WEBXR_INPUT_EVENT_SELECTEND: emit_signal("selectend", p_input_source_id); // Emit the 'select' event on our own (rather than intercepting the // one from JavaScript) so that we don't have to needlessly call // _update_input_source() a second time. emit_signal("select", p_input_source_id); break; case WEBXR_INPUT_EVENT_SQUEEZESTART: emit_signal("squeezestart", p_input_source_id); break; case WEBXR_INPUT_EVENT_SQUEEZEEND: emit_signal("squeezeend", p_input_source_id); // Again, we emit the 'squeeze' event on our own to avoid extra work. emit_signal("squeeze", p_input_source_id); break; } } Vector2 WebXRInterfaceJS::_get_screen_position_from_joy_vector(const Vector2 &p_joy_vector) { SceneTree *scene_tree = Object::cast_to(OS::get_singleton()->get_main_loop()); if (!scene_tree) { return Vector2(); } Window *viewport = scene_tree->get_root(); Vector2 position_percentage((p_joy_vector.x + 1.0f) / 2.0f, ((p_joy_vector.y) + 1.0f) / 2.0f); Vector2 position = (Size2)viewport->get_size() * position_percentage; return position; } WebXRInterfaceJS::WebXRInterfaceJS() { initialized = false; session_mode = "inline"; requested_reference_space_types = "local"; } WebXRInterfaceJS::~WebXRInterfaceJS() { // and make sure we cleanup if we haven't already if (initialized) { uninitialize(); }; } #endif // WEB_ENABLED