/* * Copyright (c) 2017, Benjamin Flegel * Copyright (c) 2017, Stanislaw Halik * Copyright (c) 2017, Anthony Coddington * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include "steamvr.hpp" #include "api/plugin-api.hpp" #include #include #include #include QMutex device_list::mtx(QMutex::Recursive); template auto with_vr_lock(F&& fun) -> decltype(fun(vr_t(), vr_error_t())) { QMutexLocker l(&device_list::mtx); auto [v, e] = device_list::vr_init(); return fun(v, e); } void device_list::fill_device_specs(QList& list) { with_vr_lock([&](vr_t v, vr_error_t) { list.clear(); pose_t device_states[max_devices]; if (!v) return; v->GetDeviceToAbsoluteTrackingPose(origin::TrackingUniverseSeated, 0, device_states, vr::k_unMaxTrackedDeviceCount); constexpr unsigned bufsiz = vr::k_unMaxPropertyStringSize; static char str[bufsiz+1] {}; // vr_lock prevents reentrancy for (unsigned k = 0; k < vr::k_unMaxTrackedDeviceCount; k++) { if (v->GetTrackedDeviceClass(k) == vr::ETrackedDeviceClass::TrackedDeviceClass_Invalid) { qDebug() << "steamvr: no device with index"; continue; } if (!device_states[k].bDeviceIsConnected) { qDebug() << "steamvr: device not connected but proceeding"; continue; } unsigned len; len = v->GetStringTrackedDeviceProperty(k, vr::ETrackedDeviceProperty::Prop_SerialNumber_String, str, bufsiz); if (!len) { qDebug() << "steamvr: getting serial number failed for" << k; continue; } device_spec dev; dev.serial = str; len = v->GetStringTrackedDeviceProperty(k, vr::ETrackedDeviceProperty::Prop_ModelNumber_String, str, bufsiz); if (!len) { qDebug() << "steamvr: getting model number failed for" << k; continue; } switch (v->GetTrackedDeviceClass(k)) { case vr::ETrackedDeviceClass::TrackedDeviceClass_HMD: dev.type = "HMD"; break; case vr::ETrackedDeviceClass::TrackedDeviceClass_Controller: dev.type = "Controller"; break; case vr::ETrackedDeviceClass::TrackedDeviceClass_TrackingReference: dev.type = "Tracker"; break; default: dev.type = "Unknown"; break; } dev.model = str; dev.pose = device_states[k]; dev.k = k; dev.is_connected = device_states[k].bDeviceIsConnected; list.push_back(dev); } }); } device_list::device_list() { refresh_device_list(); } void device_list::refresh_device_list() { device_specs.clear(); device_specs.reserve(max_devices); fill_device_specs(device_specs); } device_list::maybe_pose device_list::get_pose(int k) { if (!(unsigned(k) < max_devices)) return maybe_pose(false, pose_t{}); return with_vr_lock([k](vr_t v, vr_error_t) { static pose_t poses[max_devices] {}; // vr_lock removes reentrancy v->GetDeviceToAbsoluteTrackingPose(origin::TrackingUniverseSeated, 0, poses, max_devices); const pose_t& pose = poses[k]; if (pose.bPoseIsValid && pose.bDeviceIsConnected) return maybe_pose{ true, poses[k] }; else eval_once(qDebug() << "steamvr:" << "no valid pose from device" << k << "valid" << pose.bPoseIsValid << "connected" << pose.bDeviceIsConnected); return maybe_pose{ false, {} }; }); } tt device_list::vr_init() { static tt t = vr_init_(); return t; } tt device_list::vr_init_() { vr_error_t error = vr_error_t::VRInitError_Unknown; vr_t v = vr::VR_Init(&error, vr::EVRApplicationType::VRApplication_Other); if (v) std::atexit(vr::VR_Shutdown); else qDebug() << "steamvr: init failure" << error << device_list::error_string(error); return { v, error }; } QString device_list::error_string(vr_error_t err) { const char* str = vr::VR_GetVRInitErrorAsSymbol(err); const char* desc = vr::VR_GetVRInitErrorAsEnglishDescription(err); if (!desc) desc = "No description"; if (str) return QStringLiteral("%1: %2").arg(str, desc); else return { "Unknown error" }; } steamvr::steamvr() = default; steamvr::~steamvr() = default; module_status steamvr::start_tracker(QFrame*) { return with_vr_lock([this](vr_t v, vr_error_t e) { QString err; if (!v) { err = device_list::error_string(e); return error(err); } const QString serial = s.device_serial().toString(); device_list d; const QList& specs = d.devices(); const int sz = specs.count(); if (sz == 0) err = tr("No HMD connected"); for (const device_spec& spec : specs) { if (serial == "" || serial == spec.to_string()) { device_index = spec.k; break; } } if (device_index == UINT_MAX && err.isEmpty()) err = tr("Can't find device with that serial"); if (err.isEmpty()) { if (auto* c = vr::VRCompositor(); c != nullptr) { c->SetTrackingSpace(origin::TrackingUniverseSeated); return status_ok(); } else return error("vr::VRCompositor == NULL"); } return error(err); }); } void steamvr::data(double* data) { if (device_index != UINT_MAX) { auto [ok, pose] = device_list::get_pose(device_index); if (ok) { constexpr int c = 10; const auto& result = pose.mDeviceToAbsoluteTracking; data[TX] = (double)(-result.m[0][3] * c); data[TY] = (double)(result.m[1][3] * c); data[TZ] = (double)(result.m[2][3] * c); matrix_to_euler(data[Yaw], data[Pitch], data[Roll], result); constexpr double r2d = 180 / M_PI; data[Yaw] *= r2d; data[Pitch] *= r2d; data[Roll] *= r2d; } } } bool steamvr::center() { return with_vr_lock([&](vr_t v, vr_error_t) { if (v) { if (v->GetTrackedDeviceClass(device_index) == vr::ETrackedDeviceClass::TrackedDeviceClass_HMD) { auto* c = vr::VRChaperone(); if (!c) { eval_once(qDebug() << "vr::VRChaperone == NULL"); return false; } else { c->ResetZeroPose(origin::TrackingUniverseSeated); // Use chaperone universe real world up instead of opentrack's initial pose centering // Note: Controllers will be centered based on initial headset position. return true; } } else // with controllers, resetting the seated pose does nothing return false; } return false; }); } void steamvr::matrix_to_euler(double& yaw, double& pitch, double& roll, const vr::HmdMatrix34_t& result) { using d = double; yaw = std::atan2(d(result.m[2][0]), d(result.m[0][0])); pitch = std::atan2(-d(result.m[1][2]), d(result.m[1][1])); roll = std::asin(d(result.m[1][0])); } steamvr_dialog::steamvr_dialog() { ui.setupUi(this); connect(ui.buttonBox, SIGNAL(accepted()), this, SLOT(doOK())); connect(ui.buttonBox, SIGNAL(rejected()), this, SLOT(doCancel())); ui.device->clear(); ui.device->addItem("First available", QVariant(QVariant::String)); device_list list; for (const device_spec& spec : list.devices()) { QString text = spec.to_string(); if (!spec.is_connected) text = QStringLiteral("%1 [disconnected]").arg(text); ui.device->addItem(text, spec.to_string()); } tie_setting(s.device_serial, ui.device); } void steamvr_dialog::doOK() { s.b->save(); close(); } void steamvr_dialog::doCancel() { close(); } QString device_spec::to_string() const { return QStringLiteral("<%1> %2 [%3]").arg(type, model, serial); } OPENTRACK_DECLARE_TRACKER(steamvr, steamvr_dialog, steamvr_metadata)