godot/modules/mobile_vr/mobile_vr_interface.cpp

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/**************************************************************************/
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/* mobile_vr_interface.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 "mobile_vr_interface.h"
#include "core/input/input.h"
#include "core/os/os.h"
#include "servers/display_server.h"
#include "servers/rendering/rendering_server_globals.h"
StringName MobileVRInterface::get_name() const {
return "Native mobile";
};
uint32_t MobileVRInterface::get_capabilities() const {
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return XRInterface::XR_STEREO;
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};
Vector3 MobileVRInterface::scale_magneto(const Vector3 &p_magnetometer) {
// Our magnetometer doesn't give us nice clean data.
// Well it may on macOS because we're getting a calibrated value in the current implementation but Android we're getting raw data.
// This is a fairly simple adjustment we can do to correct for the magnetometer data being elliptical
Vector3 mag_raw = p_magnetometer;
Vector3 mag_scaled = p_magnetometer;
// update our variables every x frames
if (mag_count > 20) {
mag_current_min = mag_next_min;
mag_current_max = mag_next_max;
mag_count = 0;
} else {
mag_count++;
};
// adjust our min and max
if (mag_raw.x > mag_next_max.x) {
mag_next_max.x = mag_raw.x;
}
if (mag_raw.y > mag_next_max.y) {
mag_next_max.y = mag_raw.y;
}
if (mag_raw.z > mag_next_max.z) {
mag_next_max.z = mag_raw.z;
}
if (mag_raw.x < mag_next_min.x) {
mag_next_min.x = mag_raw.x;
}
if (mag_raw.y < mag_next_min.y) {
mag_next_min.y = mag_raw.y;
}
if (mag_raw.z < mag_next_min.z) {
mag_next_min.z = mag_raw.z;
}
// scale our x, y and z
if (!(mag_current_max.x - mag_current_min.x)) {
mag_raw.x -= (mag_current_min.x + mag_current_max.x) / 2.0;
mag_scaled.x = (mag_raw.x - mag_current_min.x) / ((mag_current_max.x - mag_current_min.x) * 2.0 - 1.0);
};
if (!(mag_current_max.y - mag_current_min.y)) {
mag_raw.y -= (mag_current_min.y + mag_current_max.y) / 2.0;
mag_scaled.y = (mag_raw.y - mag_current_min.y) / ((mag_current_max.y - mag_current_min.y) * 2.0 - 1.0);
};
if (!(mag_current_max.z - mag_current_min.z)) {
mag_raw.z -= (mag_current_min.z + mag_current_max.z) / 2.0;
mag_scaled.z = (mag_raw.z - mag_current_min.z) / ((mag_current_max.z - mag_current_min.z) * 2.0 - 1.0);
};
return mag_scaled;
};
Basis MobileVRInterface::combine_acc_mag(const Vector3 &p_grav, const Vector3 &p_magneto) {
// yup, stock standard cross product solution...
Vector3 up = -p_grav.normalized();
Vector3 magneto_east = up.cross(p_magneto.normalized()); // or is this west?, but should be horizon aligned now
magneto_east.normalize();
Vector3 magneto = up.cross(magneto_east); // and now we have a horizon aligned north
magneto.normalize();
// We use our gravity and magnetometer vectors to construct our matrix
Basis acc_mag_m3;
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acc_mag_m3.rows[0] = -magneto_east;
acc_mag_m3.rows[1] = up;
acc_mag_m3.rows[2] = magneto;
return acc_mag_m3;
};
void MobileVRInterface::set_position_from_sensors() {
_THREAD_SAFE_METHOD_
// this is a helper function that attempts to adjust our transform using our 9dof sensors
// 9dof is a misleading marketing term coming from 3 accelerometer axis + 3 gyro axis + 3 magnetometer axis = 9 axis
// but in reality this only offers 3 dof (yaw, pitch, roll) orientation
Basis orientation = head_transform.basis;
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uint64_t ticks = OS::get_singleton()->get_ticks_usec();
uint64_t ticks_elapsed = ticks - last_ticks;
float delta_time = (double)ticks_elapsed / 1000000.0;
// few things we need
Input *input = Input::get_singleton();
Vector3 down(0.0, -1.0, 0.0); // Down is Y negative
Vector3 north(0.0, 0.0, 1.0); // North is Z positive
// make copies of our inputs
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bool has_grav = false;
Vector3 acc = input->get_accelerometer();
Vector3 gyro = input->get_gyroscope();
Vector3 grav = input->get_gravity();
Vector3 magneto = scale_magneto(input->get_magnetometer()); // this may be overkill on iOS because we're already getting a calibrated magnetometer reading
if (sensor_first) {
sensor_first = false;
} else {
acc = scrub(acc, last_accerometer_data, 2, 0.2);
magneto = scrub(magneto, last_magnetometer_data, 3, 0.3);
};
last_accerometer_data = acc;
last_magnetometer_data = magneto;
if (grav.length() < 0.1) {
// not ideal but use our accelerometer, this will contain shaky user behavior
// maybe look into some math but I'm guessing that if this isn't available, it's because we lack the gyro sensor to actually work out
// what a stable gravity vector is
grav = acc;
if (grav.length() > 0.1) {
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has_grav = true;
};
} else {
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has_grav = true;
};
bool has_magneto = magneto.length() > 0.1;
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if (gyro.length() > 0.1) {
/* this can return to 0.0 if the user doesn't move the phone, so once on, it's on */
has_gyro = true;
};
if (has_gyro) {
// start with applying our gyro (do NOT smooth our gyro!)
Basis rotate;
rotate.rotate(orientation.get_column(0), gyro.x * delta_time);
rotate.rotate(orientation.get_column(1), gyro.y * delta_time);
rotate.rotate(orientation.get_column(2), gyro.z * delta_time);
orientation = rotate * orientation;
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tracking_state = XRInterface::XR_NORMAL_TRACKING;
tracking_confidence = XRPose::XR_TRACKING_CONFIDENCE_HIGH;
};
///@TODO improve this, the magnetometer is very fidgety sometimes flipping the axis for no apparent reason (probably a bug on my part)
// if you have a gyro + accelerometer that combo tends to be better than combining all three but without a gyro you need the magnetometer..
if (has_magneto && has_grav && !has_gyro) {
// convert to quaternions, easier to smooth those out
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Quaternion transform_quat(orientation);
Quaternion acc_mag_quat(combine_acc_mag(grav, magneto));
transform_quat = transform_quat.slerp(acc_mag_quat, 0.1);
orientation = Basis(transform_quat);
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tracking_state = XRInterface::XR_NORMAL_TRACKING;
tracking_confidence = XRPose::XR_TRACKING_CONFIDENCE_HIGH;
} else if (has_grav) {
// use gravity vector to make sure down is down...
// transform gravity into our world space
grav.normalize();
Vector3 grav_adj = orientation.xform(grav);
float dot = grav_adj.dot(down);
if ((dot > -1.0) && (dot < 1.0)) {
// axis around which we have this rotation
Vector3 axis = grav_adj.cross(down);
axis.normalize();
Basis drift_compensation(axis, acos(dot) * delta_time * 10);
orientation = drift_compensation * orientation;
};
};
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// and copy to our head transform
head_transform.basis = orientation.orthonormalized();
last_ticks = ticks;
};
void MobileVRInterface::_bind_methods() {
ClassDB::bind_method(D_METHOD("set_eye_height", "eye_height"), &MobileVRInterface::set_eye_height);
ClassDB::bind_method(D_METHOD("get_eye_height"), &MobileVRInterface::get_eye_height);
ClassDB::bind_method(D_METHOD("set_iod", "iod"), &MobileVRInterface::set_iod);
ClassDB::bind_method(D_METHOD("get_iod"), &MobileVRInterface::get_iod);
ClassDB::bind_method(D_METHOD("set_display_width", "display_width"), &MobileVRInterface::set_display_width);
ClassDB::bind_method(D_METHOD("get_display_width"), &MobileVRInterface::get_display_width);
ClassDB::bind_method(D_METHOD("set_display_to_lens", "display_to_lens"), &MobileVRInterface::set_display_to_lens);
ClassDB::bind_method(D_METHOD("get_display_to_lens"), &MobileVRInterface::get_display_to_lens);
ClassDB::bind_method(D_METHOD("set_offset_rect", "offset_rect"), &MobileVRInterface::set_offset_rect);
ClassDB::bind_method(D_METHOD("get_offset_rect"), &MobileVRInterface::get_offset_rect);
ClassDB::bind_method(D_METHOD("set_oversample", "oversample"), &MobileVRInterface::set_oversample);
ClassDB::bind_method(D_METHOD("get_oversample"), &MobileVRInterface::get_oversample);
ClassDB::bind_method(D_METHOD("set_k1", "k"), &MobileVRInterface::set_k1);
ClassDB::bind_method(D_METHOD("get_k1"), &MobileVRInterface::get_k1);
ClassDB::bind_method(D_METHOD("set_k2", "k"), &MobileVRInterface::set_k2);
ClassDB::bind_method(D_METHOD("get_k2"), &MobileVRInterface::get_k2);
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "eye_height", PROPERTY_HINT_RANGE, "0.0,3.0,0.1"), "set_eye_height", "get_eye_height");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "iod", PROPERTY_HINT_RANGE, "4.0,10.0,0.1"), "set_iod", "get_iod");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "display_width", PROPERTY_HINT_RANGE, "5.0,25.0,0.1"), "set_display_width", "get_display_width");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "display_to_lens", PROPERTY_HINT_RANGE, "5.0,25.0,0.1"), "set_display_to_lens", "get_display_to_lens");
ADD_PROPERTY(PropertyInfo(Variant::RECT2, "offset_rect"), "set_offset_rect", "get_offset_rect");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "oversample", PROPERTY_HINT_RANGE, "1.0,2.0,0.1"), "set_oversample", "get_oversample");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "k1", PROPERTY_HINT_RANGE, "0.1,10.0,0.0001"), "set_k1", "get_k1");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "k2", PROPERTY_HINT_RANGE, "0.1,10.0,0.0001"), "set_k2", "get_k2");
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ClassDB::bind_method(D_METHOD("get_vrs_min_radius"), &MobileVRInterface::get_vrs_min_radius);
ClassDB::bind_method(D_METHOD("set_vrs_min_radius", "radius"), &MobileVRInterface::set_vrs_min_radius);
ClassDB::bind_method(D_METHOD("get_vrs_strength"), &MobileVRInterface::get_vrs_strength);
ClassDB::bind_method(D_METHOD("set_vrs_strength", "strength"), &MobileVRInterface::set_vrs_strength);
ADD_GROUP("Vulkan VRS", "vrs_");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "vrs_min_radius", PROPERTY_HINT_RANGE, "1.0,100.0,1.0"), "set_vrs_min_radius", "get_vrs_min_radius");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "vrs_strength", PROPERTY_HINT_RANGE, "0.1,10.0,0.1"), "set_vrs_strength", "get_vrs_strength");
}
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void MobileVRInterface::set_eye_height(const double p_eye_height) {
eye_height = p_eye_height;
}
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double MobileVRInterface::get_eye_height() const {
return eye_height;
}
void MobileVRInterface::set_offset_rect(const Rect2 &p_offset_rect) {
offset_rect = p_offset_rect;
}
Rect2 MobileVRInterface::get_offset_rect() const {
return offset_rect;
}
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void MobileVRInterface::set_iod(const double p_iod) {
intraocular_dist = p_iod;
};
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double MobileVRInterface::get_iod() const {
return intraocular_dist;
};
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void MobileVRInterface::set_display_width(const double p_display_width) {
display_width = p_display_width;
};
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double MobileVRInterface::get_display_width() const {
return display_width;
};
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void MobileVRInterface::set_display_to_lens(const double p_display_to_lens) {
display_to_lens = p_display_to_lens;
};
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double MobileVRInterface::get_display_to_lens() const {
return display_to_lens;
};
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void MobileVRInterface::set_oversample(const double p_oversample) {
oversample = p_oversample;
};
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double MobileVRInterface::get_oversample() const {
return oversample;
};
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void MobileVRInterface::set_k1(const double p_k1) {
k1 = p_k1;
};
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double MobileVRInterface::get_k1() const {
return k1;
};
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void MobileVRInterface::set_k2(const double p_k2) {
k2 = p_k2;
};
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double MobileVRInterface::get_k2() const {
return k2;
};
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float MobileVRInterface::get_vrs_min_radius() const {
return xr_vrs.get_vrs_min_radius();
}
void MobileVRInterface::set_vrs_min_radius(float p_vrs_min_radius) {
xr_vrs.set_vrs_min_radius(p_vrs_min_radius);
}
float MobileVRInterface::get_vrs_strength() const {
return xr_vrs.get_vrs_strength();
}
void MobileVRInterface::set_vrs_strength(float p_vrs_strength) {
xr_vrs.set_vrs_strength(p_vrs_strength);
}
uint32_t MobileVRInterface::get_view_count() {
// needs stereo...
return 2;
};
XRInterface::TrackingStatus MobileVRInterface::get_tracking_status() const {
return tracking_state;
}
bool MobileVRInterface::is_initialized() const {
return (initialized);
};
bool MobileVRInterface::initialize() {
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XRServer *xr_server = XRServer::get_singleton();
ERR_FAIL_NULL_V(xr_server, false);
if (!initialized) {
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// reset our sensor data
mag_count = 0;
has_gyro = false;
sensor_first = true;
mag_next_min = Vector3(10000, 10000, 10000);
mag_next_max = Vector3(-10000, -10000, -10000);
mag_current_min = Vector3(0, 0, 0);
mag_current_max = Vector3(0, 0, 0);
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head_transform.basis = Basis();
head_transform.origin = Vector3(0.0, eye_height, 0.0);
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// we must create a tracker for our head
head.instantiate();
head->set_tracker_type(XRServer::TRACKER_HEAD);
head->set_tracker_name("head");
head->set_tracker_desc("Players head");
xr_server->add_tracker(head);
// make this our primary interface
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xr_server->set_primary_interface(this);
last_ticks = OS::get_singleton()->get_ticks_usec();
initialized = true;
};
return true;
};
void MobileVRInterface::uninitialize() {
if (initialized) {
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// do any cleanup here...
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XRServer *xr_server = XRServer::get_singleton();
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if (xr_server != nullptr) {
if (head.is_valid()) {
xr_server->remove_tracker(head);
head.unref();
}
if (xr_server->get_primary_interface() == this) {
// no longer our primary interface
xr_server->set_primary_interface(nullptr);
}
}
initialized = false;
};
};
Dictionary MobileVRInterface::get_system_info() {
Dictionary dict;
dict[SNAME("XRRuntimeName")] = String("Godot mobile VR interface");
dict[SNAME("XRRuntimeVersion")] = String("");
return dict;
}
bool MobileVRInterface::supports_play_area_mode(XRInterface::PlayAreaMode p_mode) {
// This interface has no positional tracking so fix this to 3DOF
return p_mode == XR_PLAY_AREA_3DOF;
}
XRInterface::PlayAreaMode MobileVRInterface::get_play_area_mode() const {
return XR_PLAY_AREA_3DOF;
}
bool MobileVRInterface::set_play_area_mode(XRInterface::PlayAreaMode p_mode) {
return p_mode == XR_PLAY_AREA_3DOF;
}
Size2 MobileVRInterface::get_render_target_size() {
_THREAD_SAFE_METHOD_
// we use half our window size
Size2 target_size = DisplayServer::get_singleton()->window_get_size();
target_size.x *= 0.5 * oversample;
target_size.y *= oversample;
return target_size;
};
Transform3D MobileVRInterface::get_camera_transform() {
_THREAD_SAFE_METHOD_
Transform3D transform_for_eye;
XRServer *xr_server = XRServer::get_singleton();
ERR_FAIL_NULL_V(xr_server, transform_for_eye);
if (initialized) {
float world_scale = xr_server->get_world_scale();
// just scale our origin point of our transform
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Transform3D _head_transform = head_transform;
_head_transform.origin *= world_scale;
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transform_for_eye = (xr_server->get_reference_frame()) * _head_transform;
}
return transform_for_eye;
};
Transform3D MobileVRInterface::get_transform_for_view(uint32_t p_view, const Transform3D &p_cam_transform) {
_THREAD_SAFE_METHOD_
Transform3D transform_for_eye;
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XRServer *xr_server = XRServer::get_singleton();
ERR_FAIL_NULL_V(xr_server, transform_for_eye);
if (initialized) {
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float world_scale = xr_server->get_world_scale();
// we don't need to check for the existence of our HMD, doesn't affect our values...
// note * 0.01 to convert cm to m and * 0.5 as we're moving half in each direction...
if (p_view == 0) {
transform_for_eye.origin.x = -(intraocular_dist * 0.01 * 0.5 * world_scale);
} else if (p_view == 1) {
transform_for_eye.origin.x = intraocular_dist * 0.01 * 0.5 * world_scale;
} else {
// should not have any other values..
};
// just scale our origin point of our transform
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Transform3D _head_transform = head_transform;
_head_transform.origin *= world_scale;
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transform_for_eye = p_cam_transform * (xr_server->get_reference_frame()) * _head_transform * transform_for_eye;
} else {
// huh? well just return what we got....
transform_for_eye = p_cam_transform;
};
return transform_for_eye;
};
Projection MobileVRInterface::get_projection_for_view(uint32_t p_view, double p_aspect, double p_z_near, double p_z_far) {
_THREAD_SAFE_METHOD_
Projection eye;
aspect = p_aspect;
eye.set_for_hmd(p_view + 1, p_aspect, intraocular_dist, display_width, display_to_lens, oversample, p_z_near, p_z_far);
return eye;
};
Vector<BlitToScreen> MobileVRInterface::post_draw_viewport(RID p_render_target, const Rect2 &p_screen_rect) {
_THREAD_SAFE_METHOD_
Vector<BlitToScreen> blit_to_screen;
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// We must have a valid render target.
ERR_FAIL_COND_V(!p_render_target.is_valid(), blit_to_screen);
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// We will only output to screen if this is our main viewport.
if (p_screen_rect == Rect2()) {
// Warn the developer once, it's up to the developer to output to screen.
WARN_PRINT_ONCE("SubViewport used with MobileVRInterface, no output to screen");
return blit_to_screen;
}
Rect2 modified_screen_rect = Rect2(p_screen_rect.position + offset_rect.position * p_screen_rect.size, p_screen_rect.size * offset_rect.size);
// and add our blits
BlitToScreen blit;
blit.render_target = p_render_target;
blit.multi_view.use_layer = true;
blit.lens_distortion.apply = true;
blit.lens_distortion.k1 = k1;
blit.lens_distortion.k2 = k2;
blit.lens_distortion.upscale = oversample;
blit.lens_distortion.aspect_ratio = aspect;
// left eye
blit.dst_rect = modified_screen_rect;
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blit.dst_rect.size.width *= 0.5;
blit.multi_view.layer = 0;
blit.lens_distortion.eye_center.x = ((-intraocular_dist / 2.0) + (display_width / 4.0)) / (display_width / 2.0);
blit_to_screen.push_back(blit);
// right eye
blit.dst_rect = modified_screen_rect;
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blit.dst_rect.size.width *= 0.5;
blit.dst_rect.position.x += blit.dst_rect.size.width;
blit.multi_view.layer = 1;
blit.lens_distortion.eye_center.x = ((intraocular_dist / 2.0) - (display_width / 4.0)) / (display_width / 2.0);
blit_to_screen.push_back(blit);
return blit_to_screen;
}
void MobileVRInterface::process() {
_THREAD_SAFE_METHOD_
if (initialized) {
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// update our head transform orientation
set_position_from_sensors();
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// update our head transform position (should be constant)
head_transform.origin = Vector3(0.0, eye_height, 0.0);
if (head.is_valid()) {
// Set our head position, note in real space, reference frame and world scale is applied later
head->set_pose("default", head_transform, Vector3(), Vector3(), tracking_confidence);
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}
};
};
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RID MobileVRInterface::get_vrs_texture() {
PackedVector2Array eye_foci;
Size2 target_size = get_render_target_size();
real_t aspect_ratio = target_size.x / target_size.y;
uint32_t view_count = get_view_count();
for (uint32_t v = 0; v < view_count; v++) {
Projection cm = get_projection_for_view(v, aspect_ratio, 0.1, 1000.0);
Vector3 center = cm.xform(Vector3(0.0, 0.0, 999.0));
eye_foci.push_back(Vector2(center.x, center.y));
}
return xr_vrs.make_vrs_texture(target_size, eye_foci);
}
MobileVRInterface::MobileVRInterface() {}
MobileVRInterface::~MobileVRInterface() {
// and make sure we cleanup if we haven't already
if (is_initialized()) {
uninitialize();
};
};