static void
Main()
{
const Waypoints way_points;
InterfaceBlackboard blackboard;
blackboard.SetComputerSettings().SetDefaults();
blackboard.SetComputerSettings().polar.glide_polar_task = GlidePolar(fixed(1));
blackboard.SetUISettings().SetDefaults();
TaskBehaviour task_behaviour;
task_behaviour.SetDefaults();
TaskManager task_manager(task_behaviour, way_points);
task_manager.SetGlidePolar(blackboard.GetComputerSettings().polar.glide_polar_task);
GlideComputerTaskEvents task_events;
task_manager.SetTaskEvents(task_events);
Airspaces airspace_database;
ProtectedTaskManager protected_task_manager(task_manager,
blackboard.GetComputerSettings().task);
LoadFiles(airspace_database);
const TaskFactoryType task_type_default =
blackboard.GetComputerSettings().task.task_type_default;
OrderedTask *task =
protected_task_manager.TaskCreateDefault(&way_points, task_type_default);
if (task != nullptr) {
protected_task_manager.TaskCommit(*task);
delete task;
}
GlideComputer glide_computer(way_points, airspace_database,
protected_task_manager,
task_events);
glide_computer.ReadComputerSettings(blackboard.GetComputerSettings());
glide_computer.SetTerrain(terrain);
glide_computer.SetContestIncremental(false);
glide_computer.Initialise();
LoadReplay(replay, glide_computer, blackboard);
delete replay;
SingleWindow main_window;
main_window.Create(_T("RunAnalysis"),
{640, 480});
dlgAnalysisShowModal(main_window, *look, blackboard, glide_computer,
&protected_task_manager,
&airspace_database,
terrain);
delete terrain;
}
FinalGlideBarWindow(const FinalGlideBarLook &look, const TaskLook &task_look)
:renderer(look, task_look),
state(GeoVector(fixed(100), Angle::Zero()),
fixed(1000), fixed(1000),
SpeedVector(Angle::Zero(), fixed(0)))
{
glide_polar = GlidePolar(fixed(0));
calculated.task_stats.total.solution_remaining =
MacCready::Solve(glide_settings, glide_polar, state);
calculated.task_stats.total.solution_mc0 =
MacCready::Solve(glide_settings, glide_polar, state);
calculated.task_stats.task_valid = true;
}
/**
* "Boots" up XCSoar
* @param hInstance Instance handle
* @param lpCmdLine Command line string
* @return True if bootup successful, False otherwise
*/
bool
Startup()
{
VerboseOperationEnvironment operation;
#ifdef HAVE_DOWNLOAD_MANAGER
Net::DownloadManager::Initialise();
#endif
LogFormat("Display dpi=%u,%u", Display::GetXDPI(), Display::GetYDPI());
// Creates the main window
TopWindowStyle style;
if (CommandLine::full_screen)
style.FullScreen();
style.Resizable();
MainWindow *const main_window = CommonInterface::main_window =
new MainWindow();
main_window->Create(SystemWindowSize(), style);
if (!main_window->IsDefined())
return false;
#ifdef ENABLE_OPENGL
LogFormat("OpenGL: "
#ifdef ANDROID
#ifdef USE_EGL
"egl=native "
#else
"egl=no "
#endif
#endif
#ifdef HAVE_OES_DRAW_TEXTURE
"oesdt=%d "
#endif
#ifdef HAVE_DYNAMIC_MULTI_DRAW_ARRAYS
"mda=%d "
#endif
"npot=%d vbo=%d fbo=%d stencil=%#x",
#ifdef HAVE_OES_DRAW_TEXTURE
OpenGL::oes_draw_texture,
#endif
#ifdef HAVE_DYNAMIC_MULTI_DRAW_ARRAYS
GLExt::HaveMultiDrawElements(),
#endif
OpenGL::texture_non_power_of_two,
OpenGL::vertex_buffer_object,
OpenGL::frame_buffer_object,
OpenGL::render_buffer_stencil);
#endif
CommonInterface::SetUISettings().SetDefaults();
main_window->Initialise();
#ifdef SIMULATOR_AVAILABLE
// prompt for simulator if not set by command line argument "-simulator" or "-fly"
if (!sim_set_in_cmd_line_flag) {
SimulatorPromptResult result = dlgSimulatorPromptShowModal();
switch (result) {
case SPR_QUIT:
return false;
case SPR_FLY:
global_simulator_flag = false;
break;
case SPR_SIMULATOR:
global_simulator_flag = true;
break;
}
}
#endif
CommonInterface::SetSystemSettings().SetDefaults();
CommonInterface::SetComputerSettings().SetDefaults();
CommonInterface::SetUIState().Clear();
const auto &computer_settings = CommonInterface::GetComputerSettings();
const auto &ui_settings = CommonInterface::GetUISettings();
auto &live_blackboard = CommonInterface::GetLiveBlackboard();
if (!LoadProfile())
return false;
operation.SetText(_("Initialising"));
/* create XCSoarData on the first start */
CreateDataPath();
Display::LoadOrientation(operation);
main_window->CheckResize();
main_window->InitialiseConfigured();
{
file_cache = new FileCache(LocalPath(_T("cache")));
}
ReadLanguageFile();
InputEvents::readFile();
// Initialize DeviceBlackboard
device_blackboard = new DeviceBlackboard();
devices = new MultipleDevices();
device_blackboard->SetDevices(*devices);
// Initialize main blackboard data
task_events = new GlideComputerTaskEvents();
task_manager = new TaskManager(computer_settings.task, way_points);
task_manager->SetTaskEvents(*task_events);
task_manager->Reset();
protected_task_manager =
new ProtectedTaskManager(*task_manager, computer_settings.task);
// Read the terrain file
operation.SetText(_("Loading Terrain File..."));
LogFormat("OpenTerrain");
terrain = RasterTerrain::OpenTerrain(file_cache, operation);
logger = new Logger();
glide_computer = new GlideComputer(way_points, airspace_database,
*protected_task_manager,
*task_events);
glide_computer->ReadComputerSettings(computer_settings);
glide_computer->SetTerrain(terrain);
glide_computer->SetLogger(logger);
glide_computer->Initialise();
replay = new Replay(logger, *protected_task_manager);
#ifdef HAVE_CMDLINE_REPLAY
if (CommandLine::replay_path != nullptr) {
Error error;
if (!replay->Start(Path(CommandLine::replay_path), error))
LogError(error);
}
#endif
GlidePolar &gp = CommonInterface::SetComputerSettings().polar.glide_polar_task;
gp = GlidePolar(0);
gp.SetMC(computer_settings.task.safety_mc);
gp.SetBugs(computer_settings.polar.degradation_factor);
PlaneGlue::FromProfile(CommonInterface::SetComputerSettings().plane,
Profile::map);
PlaneGlue::Synchronize(computer_settings.plane,
CommonInterface::SetComputerSettings(), gp);
task_manager->SetGlidePolar(gp);
// Read the topography file(s)
topography = new TopographyStore();
LoadConfiguredTopography(*topography, operation);
// Read the waypoint files
WaypointGlue::LoadWaypoints(way_points, terrain, operation);
// Read and parse the airfield info file
WaypointDetails::ReadFileFromProfile(way_points, operation);
// Set the home waypoint
WaypointGlue::SetHome(way_points, terrain,
CommonInterface::SetComputerSettings().poi,
CommonInterface::SetComputerSettings().team_code,
device_blackboard, false);
// ReSynchronise the blackboards here since SetHome touches them
device_blackboard->Merge();
CommonInterface::ReadBlackboardBasic(device_blackboard->Basic());
// Scan for weather forecast
LogFormat("RASP load");
rasp = new RaspStore();
rasp->ScanAll();
// Reads the airspace files
ReadAirspace(airspace_database, terrain, computer_settings.pressure,
operation);
{
const AircraftState aircraft_state =
ToAircraftState(device_blackboard->Basic(),
device_blackboard->Calculated());
ProtectedAirspaceWarningManager::ExclusiveLease lease(glide_computer->GetAirspaceWarnings());
lease->Reset(aircraft_state);
}
#ifdef HAVE_NOAA
noaa_store = new NOAAStore();
noaa_store->LoadFromProfile();
#endif
AudioVarioGlue::Initialise();
AudioVarioGlue::Configure(ui_settings.sound.vario);
// Start the device thread(s)
operation.SetText(_("Starting devices"));
devStartup();
/*
-- Reset polar in case devices need the data
GlidePolar::UpdatePolar(true, computer_settings);
This should be done inside devStartup if it is really required
*/
operation.SetText(_("Initialising display"));
GlueMapWindow *map_window = main_window->GetMap();
if (map_window != nullptr) {
map_window->SetWaypoints(&way_points);
map_window->SetTask(protected_task_manager);
map_window->SetRoutePlanner(&glide_computer->GetProtectedRoutePlanner());
map_window->SetGlideComputer(glide_computer);
map_window->SetAirspaces(&airspace_database);
map_window->SetTopography(topography);
map_window->SetTerrain(terrain);
map_window->SetWeather(rasp);
#ifdef HAVE_NOAA
map_window->SetNOAAStore(noaa_store);
#endif
/* show map at home waypoint until GPS fix becomes available */
if (computer_settings.poi.home_location_available)
map_window->SetLocation(computer_settings.poi.home_location);
}
// Finally ready to go.. all structures must be present before this.
// Create the drawing thread
#ifndef ENABLE_OPENGL
draw_thread = new DrawThread(*map_window);
draw_thread->Start(true);
#endif
// Show the infoboxes
InfoBoxManager::Show();
// Create the calculation thread
CreateCalculationThread();
// Find unique ID of this PDA
ReadAssetNumber();
glide_computer_events = new GlideComputerEvents();
glide_computer_events->Reset();
live_blackboard.AddListener(*glide_computer_events);
all_monitors = new AllMonitors();
if (!is_simulator() && computer_settings.logger.enable_flight_logger) {
flight_logger = new GlueFlightLogger(live_blackboard);
flight_logger->SetPath(LocalPath(_T("flights.log")));
}
if (computer_settings.logger.enable_nmea_logger)
NMEALogger::enabled = true;
LogFormat("ProgramStarted");
// Give focus to the map
main_window->SetDefaultFocus();
// Start calculation thread
merge_thread->Start();
calculation_thread->Start();
PageActions::Update();
#ifdef HAVE_TRACKING
tracking = new TrackingGlue();
tracking->SetSettings(computer_settings.tracking);
#ifdef HAVE_SKYLINES_TRACKING_HANDLER
if (map_window != nullptr)
map_window->SetSkyLinesData(&tracking->GetSkyLinesData());
#endif
#endif
assert(!global_running);
global_running = true;
AfterStartup();
operation.Hide();
main_window->FinishStartup();
return true;
}
/**
* "Boots" up XCSoar
* @param hInstance Instance handle
* @param lpCmdLine Command line string
* @return True if bootup successful, False otherwise
*/
bool
XCSoarInterface::Startup()
{
VerboseOperationEnvironment operation;
// Set the application title to "XCSoar"
TCHAR szTitle[] = _T("XCSoar");
//If "XCSoar" is already running, stop this instance
if (MainWindow::find(szTitle))
return false;
LogStartUp(_T("Display dpi=%u,%u"), Display::GetXDPI(), Display::GetYDPI());
// Creates the main window
LogStartUp(_T("Create main window"));
TopWindowStyle style;
if (CommandLine::full_screen)
style.FullScreen();
if (CommandLine::resizable)
style.Resizable();
main_window.Set(szTitle, SystemWindowSize(), style);
if (!main_window.IsDefined())
return false;
#ifdef ENABLE_OPENGL
LogStartUp(_T("OpenGL: "
#ifdef HAVE_EGL
"egl=%d "
#endif
"npot=%d vbo=%d fbo=%d"),
#ifdef HAVE_EGL
OpenGL::egl,
#endif
OpenGL::texture_non_power_of_two,
OpenGL::vertex_buffer_object,
OpenGL::frame_buffer_object);
#endif
main_window.Initialise();
#ifdef SIMULATOR_AVAILABLE
// prompt for simulator if not set by command line argument "-simulator" or "-fly"
if (!sim_set_in_cmd_line_flag) {
DialogLook white_look;
white_look.Initialise(Fonts::map_bold, Fonts::map, Fonts::map_label,
Fonts::map_bold, Fonts::map_bold);
white_look.SetBackgroundColor(COLOR_WHITE);
SetXMLDialogLook(white_look);
SimulatorPromptResult result = dlgSimulatorPromptShowModal();
switch (result) {
case SPR_QUIT:
return false;
case SPR_FLY:
global_simulator_flag = false;
break;
case SPR_SIMULATOR:
global_simulator_flag = true;
break;
}
}
#endif
SetXMLDialogLook(main_window.GetLook().dialog);
SetSystemSettings().SetDefaults();
SetComputerSettings().SetDefaults();
SetUISettings().SetDefaults();
SetUIState().Clear();
if (!LoadProfile())
return false;
operation.SetText(_("Initialising"));
/* create XCSoarData on the first start */
CreateDataPath();
Display::LoadOrientation(operation);
main_window.InitialiseConfigured();
TCHAR path[MAX_PATH];
LocalPath(path, _T("cache"));
file_cache = new FileCache(path);
ReadLanguageFile();
status_messages.LoadFile();
InputEvents::readFile();
// Initialize DeviceBlackboard
device_blackboard = new DeviceBlackboard();
DeviceListInitialise();
// Initialize Markers
marks = new Markers();
protected_marks = new ProtectedMarkers(*marks);
#ifdef HAVE_AYGSHELL_DLL
const AYGShellDLL &ayg = main_window.ayg_shell_dll;
ayg.SHSetAppKeyWndAssoc(VK_APP1, main_window);
ayg.SHSetAppKeyWndAssoc(VK_APP2, main_window);
ayg.SHSetAppKeyWndAssoc(VK_APP3, main_window);
ayg.SHSetAppKeyWndAssoc(VK_APP4, main_window);
// Typical Record Button
// Why you can't always get this to work
// http://forums.devbuzz.com/m_1185/mpage_1/key_/tm.htm
// To do with the fact it is a global hotkey, but you can with code above
// Also APPA is record key on some systems
ayg.SHSetAppKeyWndAssoc(VK_APP5, main_window);
ayg.SHSetAppKeyWndAssoc(VK_APP6, main_window);
#endif
// Initialize main blackboard data
task_manager = new TaskManager(GetComputerSettings().task, way_points);
task_manager->SetTaskEvents(task_events);
task_manager->Reset();
protected_task_manager =
new ProtectedTaskManager(*task_manager,
XCSoarInterface::GetComputerSettings().task);
// Read the terrain file
operation.SetText(_("Loading Terrain File..."));
LogStartUp(_T("OpenTerrain"));
terrain = RasterTerrain::OpenTerrain(file_cache, operation);
glide_computer = new GlideComputer(way_points, airspace_database,
*protected_task_manager,
task_events);
glide_computer->ReadComputerSettings(GetComputerSettings());
glide_computer->SetTerrain(terrain);
glide_computer->SetLogger(&logger);
glide_computer->Initialise();
replay = new Replay(&logger, *protected_task_manager);
// Load the EGM96 geoid data
EGM96::Load();
GlidePolar &gp = SetComputerSettings().polar.glide_polar_task;
gp = GlidePolar(fixed_zero);
gp.SetMC(GetComputerSettings().task.safety_mc);
gp.SetBugs(GetComputerSettings().polar.degradation_factor);
PlaneGlue::FromProfile(SetComputerSettings().plane);
PlaneGlue::Synchronize(GetComputerSettings().plane, SetComputerSettings(), gp);
task_manager->SetGlidePolar(gp);
// Read the topography file(s)
topography = new TopographyStore();
LoadConfiguredTopography(*topography, operation);
// Read the waypoint files
WaypointGlue::LoadWaypoints(way_points, terrain, operation);
// Read and parse the airfield info file
WaypointDetails::ReadFileFromProfile(way_points, operation);
// Set the home waypoint
WaypointGlue::SetHome(way_points, terrain, SetComputerSettings(),
device_blackboard, false);
// ReSynchronise the blackboards here since SetHome touches them
device_blackboard->Merge();
ReadBlackboardBasic(device_blackboard->Basic());
// Scan for weather forecast
LogStartUp(_T("RASP load"));
RASP.ScanAll(Basic().location, operation);
// Reads the airspace files
ReadAirspace(airspace_database, terrain, GetComputerSettings().pressure,
operation);
{
const AircraftState aircraft_state =
ToAircraftState(device_blackboard->Basic(),
device_blackboard->Calculated());
ProtectedAirspaceWarningManager::ExclusiveLease lease(glide_computer->GetAirspaceWarnings());
lease->Reset(aircraft_state);
lease->SetConfig(CommonInterface::GetComputerSettings().airspace.warnings);
}
#ifdef HAVE_NET
noaa_store = new NOAAStore();
noaa_store->LoadFromProfile();
#endif
AudioVarioGlue::Initialise();
AudioVarioGlue::Configure(GetComputerSettings().sound);
// Start the device thread(s)
operation.SetText(_("Starting devices"));
devStartup();
/*
-- Reset polar in case devices need the data
LogStartUp(_T("GlidePolar::UpdatePolar"));
GlidePolar::UpdatePolar(true, GetComputerSettings());
This should be done inside devStartup if it is really required
*/
operation.SetText(_("Initialising display"));
GlueMapWindow *map_window = main_window.GetMap();
if (map_window != NULL) {
map_window->SetWaypoints(&way_points);
map_window->SetTask(protected_task_manager);
map_window->SetRoutePlanner(&glide_computer->GetProtectedRoutePlanner());
map_window->SetGlideComputer(glide_computer);
map_window->SetAirspaces(&airspace_database);
map_window->SetTopography(topography);
map_window->SetTerrain(terrain);
map_window->SetWeather(&RASP);
map_window->SetMarks(protected_marks);
map_window->SetLogger(&logger);
/* show map at home waypoint until GPS fix becomes available */
if (GetComputerSettings().poi.home_location_available)
map_window->SetLocation(GetComputerSettings().poi.home_location);
}
// Finally ready to go.. all structures must be present before this.
// Create the drawing thread
#ifndef ENABLE_OPENGL
LogStartUp(_T("CreateDrawingThread"));
draw_thread = new DrawThread(*map_window);
draw_thread->Start(true);
#endif
// Show the infoboxes
LogStartUp(_T("ShowInfoBoxes"));
InfoBoxManager::Show();
// Create the calculation thread
LogStartUp(_T("CreateCalculationThread"));
CreateCalculationThread();
// Find unique ID of this PDA
ReadAssetNumber();
glide_computer_events.Reset();
GetLiveBlackboard().AddListener(glide_computer_events);
if (CommonInterface::GetComputerSettings().logger.enable_flight_logger) {
flight_logger = new GlueFlightLogger(GetLiveBlackboard());
LocalPath(path, _T("flights.log"));
flight_logger->SetPath(path);
}
if (CommonInterface::GetComputerSettings().logger.enable_nmea_logger)
NMEALogger::enabled = true;
LogStartUp(_T("ProgramStarted"));
// Give focus to the map
main_window.SetDefaultFocus();
Pages::Initialise(GetUISettings().pages);
// Start calculation thread
merge_thread->Start();
calculation_thread->Start();
#ifdef HAVE_TRACKING
tracking = new TrackingGlue();
tracking->SetSettings(GetComputerSettings().tracking);
#endif
globalRunningEvent.Signal();
AfterStartup();
operation.Hide();
main_window.ResumeThreads();
return true;
}
/**
* "Boots" up XCSoar
* @param hInstance Instance handle
* @param lpCmdLine Command line string
* @return True if bootup successful, False otherwise
*/
bool
XCSoarInterface::Startup(HINSTANCE hInstance)
{
// Set the application title to "XCSoar"
TCHAR szTitle[] = _T("XCSoar");
// Store instance handle in our global variable
#ifdef WIN32
ResourceLoader::Init(hInstance);
#endif
//If "XCSoar" is already running, stop this instance
if (MainWindow::find(szTitle))
return false;
// Register window classes
PaintWindow::register_class(hInstance);
MainWindow::register_class(hInstance);
// Creates the main window
LogStartUp(_T("Create main window"));
PixelRect WindowSize = SystemWindowSize();
main_window.set(szTitle,
WindowSize.left, WindowSize.top,
WindowSize.right, WindowSize.bottom);
if (!main_window.defined())
return false;
main_window.Initialise();
#ifdef SIMULATOR_AVAILABLE
// prompt for simulator if not set by command line argument "-simulator" or "-fly"
if (!sim_set_in_cmd_line_flag) {
SimulatorPromptResult result = dlgSimulatorPromptShowModal();
switch (result) {
case SPR_QUIT:
return false;
case SPR_FLY:
global_simulator_flag = false;
break;
case SPR_SIMULATOR:
global_simulator_flag = true;
break;
}
}
#endif
if (!LoadProfile())
return false;
ProgressGlue::Create(_("Initialising"));
LoadDisplayOrientation();
main_window.InitialiseConfigured();
TCHAR path[MAX_PATH];
LocalPath(path, _T("cache"));
file_cache = new FileCache(path);
Graphics::InitialiseConfigured(SettingsMap());
ReadLanguageFile();
status_messages.LoadFile();
InputEvents::readFile();
// Initialize DeviceBlackboard
device_blackboard.Initialise();
// Initialize Marks
marks = new Marks();
// Send the SettingsMap to the DeviceBlackboard
SendSettingsMap();
// Show the main and map windows
LogStartUp(_T("Create map window"));
main_window.show();
main_window.map.show();
#ifdef HAVE_AYGSHELL_DLL
const AYGShellDLL &ayg = main_window.ayg_shell_dll;
ayg.SHSetAppKeyWndAssoc(VK_APP1, main_window);
ayg.SHSetAppKeyWndAssoc(VK_APP2, main_window);
ayg.SHSetAppKeyWndAssoc(VK_APP3, main_window);
ayg.SHSetAppKeyWndAssoc(VK_APP4, main_window);
// Typical Record Button
// Why you can't always get this to work
// http://forums.devbuzz.com/m_1185/mpage_1/key_/tm.htm
// To do with the fact it is a global hotkey, but you can with code above
// Also APPA is record key on some systems
ayg.SHSetAppKeyWndAssoc(VK_APP5, main_window);
ayg.SHSetAppKeyWndAssoc(VK_APP6, main_window);
#endif
// Initialize main blackboard data
task_manager = new TaskManager(task_events, way_points);
task_manager->reset();
protected_task_manager =
new ProtectedTaskManager(*task_manager,
XCSoarInterface::SettingsComputer(),
task_events, airspace_database);
airspace_warning = new AirspaceWarningManager(airspace_database,
*task_manager);
airspace_warnings = new ProtectedAirspaceWarningManager(*airspace_warning);
// Read the terrain file
ProgressGlue::Create(_("Loading Terrain File..."));
LogStartUp(_T("OpenTerrain"));
terrain = RasterTerrain::OpenTerrain(file_cache);
glide_computer = new GlideComputer(way_points, *protected_task_manager,
*airspace_warnings,
task_events);
glide_computer->set_terrain(terrain);
glide_computer->SetLogger(&logger);
glide_computer->Initialise();
replay = new Replay(*protected_task_manager);
// Load the EGM96 geoid data
OpenGeoid();
GlidePolar &gp = SetSettingsComputer().glide_polar_task;
gp = GlidePolar(fixed_zero);
PolarGlue::LoadFromProfile(gp, SetSettingsComputer());
task_manager->set_glide_polar(gp);
task_manager->set_contest(SettingsComputer().contest);
// Read the topography file(s)
topography = new TopographyStore();
LoadConfiguredTopography(*topography);
// Read the waypoint files
WayPointGlue::LoadWaypoints(way_points, terrain);
// Read and parse the airfield info file
ReadAirfieldFile(way_points);
// Set the home waypoint
WayPointGlue::SetHome(way_points, terrain, SetSettingsComputer(),
false);
// ReSynchronise the blackboards here since SetHome touches them
ReadBlackboardBasic(device_blackboard.Basic());
// Scan for weather forecast
ProgressGlue::Create(_("Scanning weather forecast"));
LogStartUp(_T("RASP load"));
RASP.ScanAll(Basic().Location);
// Reads the airspace files
ReadAirspace(airspace_database, terrain, SettingsComputer().pressure);
const AIRCRAFT_STATE aircraft_state =
ToAircraftState(device_blackboard.Basic(), device_blackboard.Calculated());
airspace_warning->reset(aircraft_state);
airspace_warning->set_config(CommonInterface::SettingsComputer().airspace.warnings);
// Read the FLARM details file
FlarmDetails::Load();
#ifndef DISABLEAUDIOVARIO
/*
VarioSound_Init();
VarioSound_EnableSound(EnableSoundVario);
VarioSound_SetVdead(SoundDeadband);
VarioSound_SetV(0);
VarioSound_SetSoundVolume(SoundVolume);
*/
#endif
// Start the device thread(s)
ProgressGlue::Create(_("Starting devices"));
devStartup();
/*
-- Reset polar in case devices need the data
LogStartUp(_T("GlidePolar::UpdatePolar"));
GlidePolar::UpdatePolar(true, SettingsComputer());
This should be done inside devStartup if it is really required
*/
ProgressGlue::Create(_("Initialising display"));
main_window.map.set_way_points(&way_points);
main_window.map.set_task(protected_task_manager);
main_window.map.set_airspaces(&airspace_database, airspace_warnings);
main_window.map.set_topography(topography);
main_window.map.set_terrain(terrain);
main_window.map.set_weather(&RASP);
main_window.map.set_marks(marks);
main_window.map.SetLogger(&logger);
// Finally ready to go.. all structures must be present before this.
// Create the drawing thread
#ifndef ENABLE_OPENGL
LogStartUp(_T("CreateDrawingThread"));
draw_thread = new DrawThread(main_window.map, main_window.flarm,
main_window.ta);
draw_thread->start();
#endif
// Show the infoboxes
LogStartUp(_T("ShowInfoBoxes"));
InfoBoxManager::Show();
// Create the calculation thread
LogStartUp(_T("CreateCalculationThread"));
CreateCalculationThread();
// Find unique ID of this PDA
ReadAssetNumber();
LogStartUp(_T("ProgramStarted"));
// Give focus to the map
main_window.map.set_focus();
Pages::LoadFromProfile();
// Start calculation thread
calculation_thread->start();
globalRunningEvent.trigger();
AfterStartup();
#ifndef ENABLE_OPENGL
draw_thread->resume();
#endif
return true;
}
GlidePolar
MapWindow::get_glide_polar() const
{
return task != NULL ? task->get_glide_polar() : GlidePolar(fixed_zero);
}