#include "AppFrame.h" #include "wx/wxprec.h" #ifndef WX_PRECOMP #include "wx/wx.h" #endif #if !wxUSE_GLCANVAS #error "OpenGL required: set wxUSE_GLCANVAS to 1 and rebuild the library" #endif #include #include "SDRThread.h" #include "DemodulatorMgr.h" #include "AudioThread.h" #include "CubicSDR.h" #include #include wxBEGIN_EVENT_TABLE(AppFrame, wxFrame) //EVT_MENU(wxID_NEW, AppFrame::OnNewWindow) EVT_MENU(wxID_CLOSE, AppFrame::OnClose) EVT_MENU(wxID_ANY, AppFrame::OnMenu) EVT_COMMAND(wxID_ANY, wxEVT_THREAD, AppFrame::OnThread) EVT_IDLE(AppFrame::OnIdle) wxEND_EVENT_TABLE() AppFrame::AppFrame() : wxFrame(NULL, wxID_ANY, wxT("CubicSDR")), activeDemodulator(NULL) { wxBoxSizer *vbox = new wxBoxSizer(wxVERTICAL); wxBoxSizer *demodOpts = new wxBoxSizer(wxVERTICAL); wxBoxSizer *demodVisuals = new wxBoxSizer(wxVERTICAL); wxBoxSizer *demodTray = new wxBoxSizer(wxHORIZONTAL); wxBoxSizer *demodScopeTray = new wxBoxSizer(wxVERTICAL); demodModeSelector = new ModeSelectorCanvas(this, NULL); demodModeSelector->addChoice(DEMOD_TYPE_FM,"FM"); demodModeSelector->addChoice(DEMOD_TYPE_AM,"AM"); demodModeSelector->addChoice(DEMOD_TYPE_LSB,"LSB"); demodModeSelector->addChoice(DEMOD_TYPE_USB,"USB"); demodTray->Add(demodModeSelector, 2, wxEXPAND | wxALL, 0); // demodTray->AddSpacer(2); demodSpectrumCanvas = new SpectrumCanvas(this, NULL); demodSpectrumCanvas->setup(1024); demodSpectrumCanvas->setView(DEFAULT_FREQ, 300000); demodVisuals->Add(demodSpectrumCanvas, 1, wxEXPAND | wxALL, 0); demodVisuals->AddSpacer(1); demodWaterfallCanvas = new WaterfallCanvas(this, NULL); demodWaterfallCanvas->setup(1024, 256); demodWaterfallCanvas->setView(DEFAULT_FREQ, 300000); demodWaterfallCanvas->attachSpectrumCanvas(demodSpectrumCanvas); demodSpectrumCanvas->attachWaterfallCanvas(demodWaterfallCanvas); demodVisuals->Add(demodWaterfallCanvas, 3, wxEXPAND | wxALL, 0); demodTray->Add(demodVisuals, 30, wxEXPAND | wxALL, 0); demodTray->AddSpacer(2); demodSignalMeter = new MeterCanvas(this, NULL); demodSignalMeter->setMax(0.5); demodSignalMeter->setHelpTip("Current Signal Level. Click / Drag to set Squelch level."); demodTray->Add(demodSignalMeter, 1, wxEXPAND | wxALL, 0); demodTray->AddSpacer(2); scopeCanvas = new ScopeCanvas(this, NULL); demodScopeTray->Add(scopeCanvas, 8, wxEXPAND | wxALL, 0); demodScopeTray->AddSpacer(2); demodTuner = new TuningCanvas(this, NULL); demodTuner->setHelpTip("Testing tuner"); demodScopeTray->Add(demodTuner, 1, wxEXPAND | wxALL, 0); demodTray->Add(demodScopeTray, 30, wxEXPAND | wxALL, 0); vbox->Add(demodTray, 2, wxEXPAND | wxALL, 0); vbox->AddSpacer(2); spectrumCanvas = new SpectrumCanvas(this, NULL); spectrumCanvas->setup(2048); vbox->Add(spectrumCanvas, 1, wxEXPAND | wxALL, 0); vbox->AddSpacer(2); waterfallCanvas = new WaterfallCanvas(this, NULL); waterfallCanvas->setup(2048, 512); waterfallCanvas->attachSpectrumCanvas(spectrumCanvas); spectrumCanvas->attachWaterfallCanvas(waterfallCanvas); vbox->Add(waterfallCanvas, 4, wxEXPAND | wxALL, 0); this->SetSizer(vbox); // waterfallCanvas->SetFocusFromKbd(); waterfallCanvas->SetFocus(); // SetIcon(wxICON(sample)); // Make a menubar wxMenuBar *menuBar = new wxMenuBar; wxMenu *menu = new wxMenu; // menu->Append(wxID_NEW); // menu->AppendSeparator(); menu->Append(wxID_CLOSE); menuBar->Append(menu, wxT("&File")); menu = new wxMenu; std::vector::iterator devices_i; std::map::iterator mdevices_i; AudioThread::enumerateDevices(devices); int i = 0; for (devices_i = devices.begin(); devices_i != devices.end(); devices_i++) { if (devices_i->inputChannels) { inputDevices[i] = *devices_i; } if (devices_i->outputChannels) { outputDevices[i] = *devices_i; } i++; } i = 0; for (mdevices_i = outputDevices.begin(); mdevices_i != outputDevices.end(); mdevices_i++) { wxMenuItem *itm = menu->AppendRadioItem(wxID_RT_AUDIO_DEVICE + mdevices_i->first, mdevices_i->second.name, wxT("Description?")); itm->SetId(wxID_RT_AUDIO_DEVICE + mdevices_i->first); if (mdevices_i->second.isDefaultOutput) { itm->Check(true); } outputDeviceMenuItems[mdevices_i->first] = itm; } menuBar->Append(menu, wxT("Active Demodulator &Output")); SetMenuBar(menuBar); CreateStatusBar(); SetClientSize(1280, 600); Centre(); Show(); GetStatusBar()->SetStatusText(wxString::Format(wxT("Set center frequency: %i"), DEFAULT_FREQ)); // static const int attribs[] = { WX_GL_RGBA, WX_GL_DOUBLEBUFFER, 0 }; // wxLogStatus("Double-buffered display %s supported", wxGLCanvas::IsDisplaySupported(attribs) ? "is" : "not"); // ShowFullScreen(true); } AppFrame::~AppFrame() { } 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; } } } void AppFrame::OnClose(wxCommandEvent& WXUNUSED(event)) { Close(true); } void AppFrame::OnNewWindow(wxCommandEvent& WXUNUSED(event)) { new AppFrame(); } void AppFrame::OnThread(wxCommandEvent& event) { event.Skip(); } void AppFrame::OnIdle(wxIdleEvent& event) { bool work_done = false; //#ifdef __APPLE__ // std::this_thread::sleep_for(std::chrono::milliseconds(4)); // std::this_thread::yield(); //#endif DemodulatorInstance *demod = wxGetApp().getDemodMgr().getLastActiveDemodulator(); if (demod) { if (demod != activeDemodulator) { demodSignalMeter->setInputValue(demod->getSquelchLevel()); int outputDevice = demod->getOutputDevice(); scopeCanvas->setDeviceName(outputDevices[outputDevice].name); outputDeviceMenuItems[outputDevice]->Check(true); int dType = demod->getDemodulatorType(); demodModeSelector->setSelection(dType); } if (demodWaterfallCanvas->getDragState() == WaterfallCanvas::WF_DRAG_NONE) { if (demod->getParams().frequency != demodWaterfallCanvas->getCenterFrequency()) { demodWaterfallCanvas->setCenterFrequency(demod->getFrequency()); demodSpectrumCanvas->setCenterFrequency(demod->getFrequency()); } int dSelection = demodModeSelector->getSelection(); if (dSelection != -1 && dSelection != demod->getDemodulatorType()) { demod->setDemodulatorType(dSelection); } unsigned int demodBw = (unsigned int) ceil((float) demod->getParams().bandwidth * 2.5); if (demodBw > SRATE / 2) { demodBw = SRATE / 2; } if (demodBw < 80000) { demodBw = 80000; } demodWaterfallCanvas->setBandwidth(demodBw); demodSpectrumCanvas->setBandwidth(demodBw); } demodSignalMeter->setLevel(demod->getSignalLevel()); if (demodSignalMeter->inputChanged()) { demod->setSquelchLevel(demodSignalMeter->getInputValue()); } activeDemodulator = demod; } if (!wxGetApp().getIQVisualQueue()->empty()) { DemodulatorThreadIQData *iqData; wxGetApp().getIQVisualQueue()->pop(iqData); if (iqData && iqData->data.size()) { // spectrumCanvas->setData(iqData); waterfallCanvas->setData(iqData); demodWaterfallCanvas->setData(iqData); delete iqData; } else { std::cout << "Incoming IQ data empty?" << std::endl; } work_done = true; } if (!wxGetApp().getAudioVisualQueue()->empty()) { AudioThreadInput *demodAudioData; wxGetApp().getAudioVisualQueue()->pop(demodAudioData); if (demodAudioData && demodAudioData->data.size()) { if (scopeCanvas->waveform_points.size() != demodAudioData->data.size() * 2) { scopeCanvas->waveform_points.resize(demodAudioData->data.size() * 2); } for (int i = 0, iMax = demodAudioData->data.size(); i < iMax; i++) { scopeCanvas->waveform_points[i * 2 + 1] = demodAudioData->data[i] * 0.5f; scopeCanvas->waveform_points[i * 2] = ((double) i / (double) iMax); } scopeCanvas->setStereo(demodAudioData->channels == 2); delete demodAudioData; } else { std::cout << "Incoming Demodulator data empty?" << std::endl; } work_done = true; } if (!waterfallCanvas->HasFocus()) { waterfallCanvas->SetFocus(); } if (!work_done) { event.Skip(); } }