void AppFrame::initDeviceParams(std::string deviceId) {
DeviceConfig *devConfig = wxGetApp().getConfig()->getDevice(deviceId);
int dsMode = devConfig->getDirectSampling();
if (dsMode > 0 && dsMode <= 2) {
directSamplingMenuItems[devConfig->getDirectSampling()]->Check();
}
if (devConfig->getIQSwap()) {
iqSwapMenuItem->Check();
}
}
void CubicSDR::setDevice(int deviceId) {
sdrThread->setDeviceId(deviceId);
SDRThreadCommand command(SDRThreadCommand::SDR_THREAD_CMD_SET_DEVICE);
command.llong_value = deviceId;
pipeSDRCommand->push(command);
SDRDeviceInfo *dev = (*getDevices())[deviceId];
DeviceConfig *devConfig = config.getDevice(dev->getDeviceId());
setPPM(devConfig->getPPM());
setDirectSampling(devConfig->getDirectSampling());
setSwapIQ(devConfig->getIQSwap());
setOffset(devConfig->getOffset());
}
bool CubicSDR::OnInit() {
#ifdef _OSX_APP_
CFBundleRef mainBundle = CFBundleGetMainBundle();
CFURLRef resourcesURL = CFBundleCopyResourcesDirectoryURL(mainBundle);
char path[PATH_MAX];
if (!CFURLGetFileSystemRepresentation(resourcesURL, TRUE, (UInt8 *)path, PATH_MAX))
{
// error!
}
CFRelease(resourcesURL);
chdir(path);
#endif
if (!wxApp::OnInit()) {
return false;
}
wxApp::SetAppName("CubicSDR");
frequency = wxGetApp().getConfig()->getCenterFreq();
offset = 0;
ppm = 0;
directSamplingMode = 0;
// Visual Data
spectrumVisualThread = new SpectrumVisualDataThread();
demodVisualThread = new SpectrumVisualDataThread();
pipeIQVisualData = new DemodulatorThreadInputQueue();
pipeIQVisualData->set_max_num_items(1);
spectrumDistributor.setInput(pipeIQVisualData);
pipeDemodIQVisualData = new DemodulatorThreadInputQueue();
pipeDemodIQVisualData->set_max_num_items(1);
pipeSpectrumIQVisualData = new DemodulatorThreadInputQueue();
pipeSpectrumIQVisualData->set_max_num_items(1);
pipeWaterfallIQVisualData = new DemodulatorThreadInputQueue();
pipeWaterfallIQVisualData->set_max_num_items(128);
spectrumDistributor.attachOutput(pipeDemodIQVisualData);
spectrumDistributor.attachOutput(pipeSpectrumIQVisualData);
getDemodSpectrumProcessor()->setInput(pipeDemodIQVisualData);
getSpectrumProcessor()->setInput(pipeSpectrumIQVisualData);
pipeAudioVisualData = new DemodulatorThreadOutputQueue();
pipeAudioVisualData->set_max_num_items(1);
scopeProcessor.setInput(pipeAudioVisualData);
// I/Q Data
pipeSDRIQData = new SDRThreadIQDataQueue();
pipeSDRCommand = new SDRThreadCommandQueue();
pipeSDRIQData->set_max_num_items(100);
sdrThread = new SDRThread();
sdrThread->setInputQueue("SDRCommandQueue",pipeSDRCommand);
sdrThread->setOutputQueue("IQDataOutput",pipeSDRIQData);
sdrPostThread = new SDRPostThread();
// sdrPostThread->setNumVisSamples(BUF_SIZE);
sdrPostThread->setInputQueue("IQDataInput", pipeSDRIQData);
sdrPostThread->setOutputQueue("IQVisualDataOutput", pipeIQVisualData);
sdrPostThread->setOutputQueue("IQDataOutput", pipeWaterfallIQVisualData);
std::vector<SDRDeviceInfo *>::iterator devs_i;
SDRThread::enumerate_rtl(&devs);
SDRDeviceInfo *dev = NULL;
if (devs.size() > 1) {
wxArrayString choices;
for (devs_i = devs.begin(); devs_i != devs.end(); devs_i++) {
std::string devName = (*devs_i)->getName();
if ((*devs_i)->isAvailable()) {
devName.append(": ");
devName.append((*devs_i)->getProduct());
devName.append(" [");
devName.append((*devs_i)->getSerial());
devName.append("]");
} else {
devName.append(" (In Use?)");
}
choices.Add(devName);
}
int devId = wxGetSingleChoiceIndex(wxT("Devices"), wxT("Choose Input Device"), choices);
if (devId == -1) { // User chose to cancel
return false;
}
dev = devs[devId];
sdrThread->setDeviceId(devId);
} else if (devs.size() == 1) {
dev = devs[0];
}
if (!dev) {
wxMessageDialog *info;
info = new wxMessageDialog(NULL, wxT("\x28\u256F\xB0\u25A1\xB0\uFF09\u256F\uFE35\x20\u253B\u2501\u253B"), wxT("RTL-SDR device not found"), wxOK | wxICON_ERROR);
info->ShowModal();
return false;
}
t_PostSDR = new std::thread(&SDRPostThread::threadMain, sdrPostThread);
t_SDR = new std::thread(&SDRThread::threadMain, sdrThread);
t_SpectrumVisual = new std::thread(&SpectrumVisualDataThread::threadMain, spectrumVisualThread);
t_DemodVisual = new std::thread(&SpectrumVisualDataThread::threadMain, demodVisualThread);
appframe = new AppFrame();
if (dev != NULL) {
appframe->initDeviceParams(dev->getDeviceId());
DeviceConfig *devConfig = wxGetApp().getConfig()->getDevice(dev->getDeviceId());
ppm = devConfig->getPPM();
offset = devConfig->getOffset();
directSamplingMode = devConfig->getDirectSampling();
}
#ifdef __APPLE__
int main_policy;
struct sched_param main_param;
main_policy = SCHED_RR;
main_param.sched_priority = sched_get_priority_min(SCHED_RR)+2;
pthread_setschedparam(pthread_self(), main_policy, &main_param);
#endif
return true;
}
void AppFrame::OnMenu(wxCommandEvent& event) {
if (event.GetId() >= wxID_RT_AUDIO_DEVICE && event.GetId() < wxID_RT_AUDIO_DEVICE + devices.size()) {
if (activeDemodulator) {
activeDemodulator->setOutputDevice(event.GetId() - wxID_RT_AUDIO_DEVICE);
activeDemodulator = NULL;
}
} else if (event.GetId() == wxID_SET_FREQ_OFFSET) {
long ofs = wxGetNumberFromUser("Shift the displayed frequency by this amount.\ni.e. -125000000 for -125 MHz", "Frequency (Hz)",
"Frequency Offset", wxGetApp().getOffset(), -2000000000, 2000000000, this);
if (ofs != -1) {
wxGetApp().setOffset(ofs);
wxGetApp().saveConfig();
}
} else if (event.GetId() == wxID_SET_DS_OFF) {
wxGetApp().setDirectSampling(0);
wxGetApp().saveConfig();
} else if (event.GetId() == wxID_SET_DS_I) {
wxGetApp().setDirectSampling(1);
wxGetApp().saveConfig();
} else if (event.GetId() == wxID_SET_DS_Q) {
wxGetApp().setDirectSampling(2);
wxGetApp().saveConfig();
} else if (event.GetId() == wxID_SET_SWAP_IQ) {
bool swap_state = !wxGetApp().getSwapIQ();
wxGetApp().setSwapIQ(swap_state);
wxGetApp().saveConfig();
iqSwapMenuItem->Check(swap_state);
} else if (event.GetId() == wxID_SET_PPM) {
long ofs = wxGetNumberFromUser("Frequency correction for device in PPM.\ni.e. -51 for -51 PPM\n\nNote: you can adjust PPM interactively\nby holding ALT over the frequency tuning bar.\n", "Parts per million (PPM)",
"Frequency Correction", wxGetApp().getPPM(), -1000, 1000, this);
wxGetApp().setPPM(ofs);
wxGetApp().saveConfig();
} else if (event.GetId() == wxID_SAVE) {
if (!currentSessionFile.empty()) {
saveSession(currentSessionFile);
} else {
wxFileDialog saveFileDialog(this, _("Save XML Session file"), "", "", "XML files (*.xml)|*.xml", wxFD_SAVE | wxFD_OVERWRITE_PROMPT);
if (saveFileDialog.ShowModal() == wxID_CANCEL) {
return;
}
saveSession(saveFileDialog.GetPath().ToStdString());
}
} else if (event.GetId() == wxID_OPEN) {
wxFileDialog openFileDialog(this, _("Open XML Session file"), "", "", "XML files (*.xml)|*.xml", wxFD_OPEN | wxFD_FILE_MUST_EXIST);
if (openFileDialog.ShowModal() == wxID_CANCEL) {
return;
}
loadSession(openFileDialog.GetPath().ToStdString());
} else if (event.GetId() == wxID_SAVEAS) {
wxFileDialog saveFileDialog(this, _("Save XML Session file"), "", "", "XML files (*.xml)|*.xml", wxFD_SAVE | wxFD_OVERWRITE_PROMPT);
if (saveFileDialog.ShowModal() == wxID_CANCEL) {
return;
}
saveSession(saveFileDialog.GetPath().ToStdString());
} else if (event.GetId() == wxID_RESET) {
wxGetApp().getDemodMgr().terminateAll();
wxGetApp().setFrequency(100000000);
wxGetApp().setOffset(0);
SetTitle(CUBICSDR_TITLE);
currentSessionFile = "";
} else if (event.GetId() == wxID_EXIT) {
Close(false);
} else if (event.GetId() == wxID_THEME_DEFAULT) {
ThemeMgr::mgr.setTheme(COLOR_THEME_DEFAULT);
} else if (event.GetId() == wxID_THEME_SHARP) {
ThemeMgr::mgr.setTheme(COLOR_THEME_SHARP);
} else if (event.GetId() == wxID_THEME_BW) {
ThemeMgr::mgr.setTheme(COLOR_THEME_BW);
} else if (event.GetId() == wxID_THEME_RAD) {
ThemeMgr::mgr.setTheme(COLOR_THEME_RAD);
} else if (event.GetId() == wxID_THEME_TOUCH) {
ThemeMgr::mgr.setTheme(COLOR_THEME_TOUCH);
} else if (event.GetId() == wxID_THEME_HD) {
ThemeMgr::mgr.setTheme(COLOR_THEME_HD);
} else if (event.GetId() == wxID_THEME_RADAR) {
ThemeMgr::mgr.setTheme(COLOR_THEME_RADAR);
}
switch (event.GetId()) {
case wxID_BANDWIDTH_250K:
wxGetApp().setSampleRate(250000);
break;
case wxID_BANDWIDTH_1000M:
wxGetApp().setSampleRate(1000000);
break;
case wxID_BANDWIDTH_1024M:
wxGetApp().setSampleRate(1024000);
break;
case wxID_BANDWIDTH_1500M:
wxGetApp().setSampleRate(1500000);
break;
case wxID_BANDWIDTH_1800M:
wxGetApp().setSampleRate(1800000);
break;
case wxID_BANDWIDTH_1920M:
wxGetApp().setSampleRate(1920000);
break;
case wxID_BANDWIDTH_2000M:
wxGetApp().setSampleRate(2000000);
break;
case wxID_BANDWIDTH_2048M:
wxGetApp().setSampleRate(2048000);
break;
case wxID_BANDWIDTH_2160M:
wxGetApp().setSampleRate(2160000);
break;
case wxID_BANDWIDTH_2400M:
wxGetApp().setSampleRate(2400000);
break;
case wxID_BANDWIDTH_2560M:
wxGetApp().setSampleRate(2560000);
break;
case wxID_BANDWIDTH_2880M:
wxGetApp().setSampleRate(2880000);
break;
// case wxID_BANDWIDTH_3000M:
// wxGetApp().setSampleRate(3000000);
// break;
case wxID_BANDWIDTH_3200M:
wxGetApp().setSampleRate(3200000);
break;
}
std::vector<SDRDeviceInfo *> *devs = wxGetApp().getDevices();
if (event.GetId() >= wxID_DEVICE_ID && event.GetId() <= wxID_DEVICE_ID + devs->size()) {
int devId = event.GetId() - wxID_DEVICE_ID;
wxGetApp().setDevice(devId);
SDRDeviceInfo *dev = (*wxGetApp().getDevices())[devId];
DeviceConfig *devConfig = wxGetApp().getConfig()->getDevice(dev->getDeviceId());
int dsMode = devConfig->getDirectSampling();
if (dsMode >= 0 && dsMode <= 2) {
directSamplingMenuItems[devConfig->getDirectSampling()]->Check();
}
iqSwapMenuItem->Check(devConfig->getIQSwap());
}
if (event.GetId() >= wxID_AUDIO_BANDWIDTH_BASE) {
int evId = event.GetId();
std::vector<RtAudio::DeviceInfo>::iterator devices_i;
std::map<int, RtAudio::DeviceInfo>::iterator mdevices_i;
int i = 0;
for (mdevices_i = outputDevices.begin(); mdevices_i != outputDevices.end(); mdevices_i++) {
int menu_id = wxID_AUDIO_BANDWIDTH_BASE + wxID_AUDIO_DEVICE_MULTIPLIER * mdevices_i->first;
int j = 0;
for (std::vector<unsigned int>::iterator srate = mdevices_i->second.sampleRates.begin(); srate != mdevices_i->second.sampleRates.end();
srate++) {
if (evId == menu_id + j) {
//audioSampleRateMenuItems[menu_id+j];
//std::cout << "Would set audio sample rate on device " << mdevices_i->second.name << " (" << mdevices_i->first << ") to " << (*srate) << "Hz" << std::endl;
AudioThread::setDeviceSampleRate(mdevices_i->first, *srate);
}
j++;
}
i++;
}
}
}
