#include "WaterfallCanvas.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 "CubicSDR.h" #include "CubicSDRDefs.h" #include "AppFrame.h" #include #include #define MIN_BANDWIDTH 1500 wxBEGIN_EVENT_TABLE(WaterfallCanvas, wxGLCanvas) EVT_PAINT(WaterfallCanvas::OnPaint) EVT_KEY_DOWN(WaterfallCanvas::OnKeyDown) EVT_KEY_UP(WaterfallCanvas::OnKeyUp) EVT_IDLE(WaterfallCanvas::OnIdle) EVT_MOTION(WaterfallCanvas::OnMouseMoved) EVT_LEFT_DOWN(WaterfallCanvas::OnMouseDown) EVT_LEFT_UP(WaterfallCanvas::OnMouseReleased) EVT_RIGHT_DOWN(WaterfallCanvas::OnMouseRightDown) EVT_RIGHT_UP(WaterfallCanvas::OnMouseRightReleased) EVT_LEAVE_WINDOW(WaterfallCanvas::OnMouseLeftWindow) EVT_ENTER_WINDOW(WaterfallCanvas::OnMouseEnterWindow) wxEND_EVENT_TABLE() WaterfallCanvas::WaterfallCanvas(wxWindow *parent, int *attribList) : InteractiveCanvas(parent, attribList), spectrumCanvas(NULL), activeDemodulatorBandwidth(0), activeDemodulatorFrequency(0), dragState( WF_DRAG_NONE), nextDragState(WF_DRAG_NONE), fft_size(0), waterfall_lines(0), plan( NULL), in(NULL), out(NULL), resampler(NULL), resamplerRatio(0), lastInputBandwidth(0), zoom(1), mouseZoom(1) { glContext = new WaterfallContext(this, &wxGetApp().GetContext(this)); freqShifter = nco_crcf_create(LIQUID_NCO); shiftFrequency = 0; fft_ceil_ma = fft_ceil_maa = 100.0; fft_floor_ma = fft_floor_maa = 0.0; SetCursor(wxCURSOR_CROSS); } WaterfallCanvas::~WaterfallCanvas() { nco_crcf_destroy(freqShifter); } void WaterfallCanvas::setup(int fft_size_in, int waterfall_lines_in) { if (fft_size == fft_size_in && waterfall_lines_in == waterfall_lines) { return; } fft_size = fft_size_in; waterfall_lines = waterfall_lines_in; if (in) { free(in); } in = (fftw_complex*) fftw_malloc(sizeof(fftw_complex) * fft_size); if (out) { free(out); } out = (fftw_complex*) fftw_malloc(sizeof(fftw_complex) * fft_size); if (plan) { fftw_destroy_plan(plan); } plan = fftw_plan_dft_1d(fft_size, in, out, FFTW_FORWARD, FFTW_ESTIMATE); glContext->Setup(fft_size, waterfall_lines); } WaterfallCanvas::DragState WaterfallCanvas::getDragState() { return dragState; } WaterfallCanvas::DragState WaterfallCanvas::getNextDragState() { return nextDragState; } void WaterfallCanvas::attachSpectrumCanvas(SpectrumCanvas *canvas_in) { spectrumCanvas = canvas_in; } void WaterfallCanvas::OnPaint(wxPaintEvent& WXUNUSED(event)) { wxPaintDC dc(this); const wxSize ClientSize = GetClientSize(); glContext->SetCurrent(*this); glViewport(0, 0, ClientSize.x, ClientSize.y); glContext->BeginDraw(); glContext->Draw(spectrum_points); std::vector &demods = wxGetApp().getDemodMgr().getDemodulators(); DemodulatorInstance *activeDemodulator = wxGetApp().getDemodMgr().getActiveDemodulator(); DemodulatorInstance *lastActiveDemodulator = wxGetApp().getDemodMgr().getLastActiveDemodulator(); bool isNew = shiftDown || (wxGetApp().getDemodMgr().getLastActiveDemodulator() && !wxGetApp().getDemodMgr().getLastActiveDemodulator()->isActive()); int currentBandwidth = getBandwidth(); int currentCenterFreq = getCenterFrequency(); if (mouseTracker.mouseInView()) { if (nextDragState == WF_DRAG_RANGE) { if (mouseTracker.mouseDown()) { float width = mouseTracker.getOriginDeltaMouseX(); float centerPos = mouseTracker.getOriginMouseX() + width / 2.0; if (isNew) { glContext->DrawDemod(lastActiveDemodulator, 1, 1, 1, currentCenterFreq, currentBandwidth); glContext->DrawFreqSelector(centerPos, 0, 1, 0, width ? width : (1.0 / (float) ClientSize.x), currentCenterFreq, currentBandwidth); } else { glContext->DrawDemod(lastActiveDemodulator, 1, 0, 0, currentCenterFreq, currentBandwidth); glContext->DrawFreqSelector(centerPos, 1, 1, 0, width ? width : (1.0 / (float) ClientSize.x), currentCenterFreq, currentBandwidth); } } else { if (isNew) { glContext->DrawDemod(lastActiveDemodulator, 1, 1, 1, currentCenterFreq, currentBandwidth); glContext->DrawFreqSelector(mouseTracker.getMouseX(), 0, 1, 0, 1.0 / (float) ClientSize.x, currentCenterFreq, currentBandwidth); } else { glContext->DrawDemod(lastActiveDemodulator, 1, 0, 0, currentCenterFreq, currentBandwidth); glContext->DrawFreqSelector(mouseTracker.getMouseX(), 1, 1, 0, 1.0 / (float) ClientSize.x, currentCenterFreq, currentBandwidth); } } } else { if (activeDemodulator == NULL) { if (lastActiveDemodulator) { if (isNew) { glContext->DrawDemod(lastActiveDemodulator, 1, 1, 1, currentCenterFreq, currentBandwidth); glContext->DrawFreqSelector(mouseTracker.getMouseX(), 0, 1, 0, 0, currentCenterFreq, currentBandwidth); } else { glContext->DrawDemod(lastActiveDemodulator, 1, 0, 0, currentCenterFreq, currentBandwidth); glContext->DrawFreqSelector(mouseTracker.getMouseX(), 1, 1, 0, 0, currentCenterFreq, currentBandwidth); } } else { glContext->DrawFreqSelector(mouseTracker.getMouseX(), 1, 1, 0, 0, currentCenterFreq, currentBandwidth); } } else { if (lastActiveDemodulator) { glContext->DrawDemod(lastActiveDemodulator, 1, 1, 1, currentCenterFreq, currentBandwidth); } glContext->DrawDemod(activeDemodulator, 1, 1, 0, currentCenterFreq, currentBandwidth); } } } else { if (activeDemodulator) { glContext->DrawDemod(activeDemodulator, 1, 1, 1, currentCenterFreq, currentBandwidth); } if (lastActiveDemodulator) { glContext->DrawDemod(lastActiveDemodulator, 1, 1, 1, currentCenterFreq, currentBandwidth); } } for (int i = 0, iMax = demods.size(); i < iMax; i++) { if (activeDemodulator == demods[i] || lastActiveDemodulator == demods[i]) { continue; } glContext->DrawDemod(demods[i], 1, 1, 1, currentCenterFreq, currentBandwidth); } glContext->EndDraw(); SwapBuffers(); } void WaterfallCanvas::OnKeyUp(wxKeyEvent& event) { InteractiveCanvas::OnKeyUp(event); shiftDown = event.ShiftDown(); altDown = event.AltDown(); ctrlDown = event.ControlDown(); switch (event.GetKeyCode()) { case 'A': zoom = 1.0; break; case 'Z': zoom = 1.0; break; } } void WaterfallCanvas::OnKeyDown(wxKeyEvent& event) { InteractiveCanvas::OnKeyDown(event); float angle = 5.0; DemodulatorInstance *activeDemod = wxGetApp().getDemodMgr().getActiveDemodulator(); unsigned int freq; unsigned int bw; switch (event.GetKeyCode()) { case 'A': zoom = 0.95; break; case 'Z': zoom = 1.05; break; case WXK_RIGHT: freq = wxGetApp().getFrequency(); if (shiftDown) { freq += SRATE * 10; if (isView) { setView(centerFreq + SRATE * 10, getBandwidth()); if (spectrumCanvas) { spectrumCanvas->setView(getCenterFrequency(), getBandwidth()); } } } else { freq += SRATE / 2; if (isView) { setView(centerFreq + SRATE / 2, getBandwidth()); if (spectrumCanvas) { spectrumCanvas->setView(getCenterFrequency(), getBandwidth()); } } } wxGetApp().setFrequency(freq); setStatusText("Set center frequency: %s", freq); break; case WXK_LEFT: freq = wxGetApp().getFrequency(); if (shiftDown) { freq -= SRATE * 10; if (isView) { setView(centerFreq - SRATE * 10, getBandwidth()); if (spectrumCanvas) { spectrumCanvas->setView(getCenterFrequency(), getBandwidth()); } } } else { freq -= SRATE / 2; if (isView) { setView(centerFreq - SRATE / 2, getBandwidth()); if (spectrumCanvas) { spectrumCanvas->setView(getCenterFrequency(), getBandwidth()); } } } wxGetApp().setFrequency(freq); setStatusText("Set center frequency: %s", freq); break; case 'D': case WXK_DELETE: if (!activeDemod) { break; } wxGetApp().removeDemodulator(activeDemod); wxGetApp().getDemodMgr().deleteThread(activeDemod); break; case 'S': if (!activeDemod) { break; } if (activeDemod->isSquelchEnabled()) { activeDemod->setSquelchEnabled(false); } else { activeDemod->squelchAuto(); } break; case WXK_SPACE: if (!activeDemod) { break; } if (activeDemod->isStereo()) { activeDemod->setStereo(false); } else { activeDemod->setStereo(true); } break; default: event.Skip(); return; } } void WaterfallCanvas::setData(DemodulatorThreadIQData *input) { if (!input) { return; } float currentZoom = zoom; if (mouseZoom != 1) { currentZoom = mouseZoom; mouseZoom = mouseZoom + (1.0 - mouseZoom)*0.2; } unsigned int bw; if (currentZoom != 1) { int freq = wxGetApp().getFrequency(); if (currentZoom < 1) { centerFreq = getCenterFrequency(); bw = getBandwidth(); bw = (unsigned int) ceil((float) bw * currentZoom); if (bw < 80000) { bw = 80000; } if (mouseTracker.mouseInView()) { int mfreqA = getFrequencyAt(mouseTracker.getMouseX()); setBandwidth(bw); int mfreqB = getFrequencyAt(mouseTracker.getMouseX()); centerFreq += mfreqA - mfreqB; } setView(centerFreq, bw); if (spectrumCanvas) { spectrumCanvas->setView(centerFreq, bw); } } else { if (isView) { bw = getBandwidth(); bw = (unsigned int) ceil((float) bw * currentZoom); if ((int) bw >= SRATE) { bw = (unsigned int) SRATE; disableView(); if (spectrumCanvas) { spectrumCanvas->disableView(); } } else { if (mouseTracker.mouseInView()) { int freq = wxGetApp().getFrequency(); int mfreqA = getFrequencyAt(mouseTracker.getMouseX()); setBandwidth(bw); int mfreqB = getFrequencyAt(mouseTracker.getMouseX()); centerFreq += mfreqA - mfreqB; } setView(getCenterFrequency(), bw); if (spectrumCanvas) { spectrumCanvas->setView(centerFreq, bw); } } } } if (centerFreq < freq && (centerFreq - bandwidth / 2) < (freq - SRATE / 2)) { centerFreq = (freq - SRATE / 2) + bandwidth / 2; } if (centerFreq > freq && (centerFreq + bandwidth / 2) > (freq + SRATE / 2)) { centerFreq = (freq + SRATE / 2) - bandwidth / 2; } } std::vector *data = &input->data; if (data && data->size()) { // if (fft_size != data->size() && !isView) { // Setup(data->size(), waterfall_lines); // } // if (last_bandwidth != bandwidth && !isView) { // Setup(bandwidth, waterfall_lines); // } if (spectrum_points.size() < fft_size * 2) { spectrum_points.resize(fft_size * 2); } if (isView) { if (!input->frequency || !input->bandwidth) { return; } if (centerFreq != input->frequency) { if (((int) centerFreq - (int) input->frequency) != shiftFrequency || lastInputBandwidth != input->bandwidth) { if ((int) input->frequency - abs((int) centerFreq) < (int) ((float) ((float) SRATE / 2.0))) { shiftFrequency = (int) centerFreq - (int) input->frequency; nco_crcf_reset(freqShifter); nco_crcf_set_frequency(freqShifter, (2.0 * M_PI) * (((float) abs(shiftFrequency)) / ((float) input->bandwidth))); } } if (shiftBuffer.size() != input->data.size()) { if (shiftBuffer.capacity() < input->data.size()) { shiftBuffer.reserve(input->data.size()); } shiftBuffer.resize(input->data.size()); } if (shiftFrequency < 0) { nco_crcf_mix_block_up(freqShifter, &input->data[0], &shiftBuffer[0], input->data.size()); } else { nco_crcf_mix_block_down(freqShifter, &input->data[0], &shiftBuffer[0], input->data.size()); } } else { shiftBuffer.assign(input->data.begin(), input->data.end()); } if (!resampler || bandwidth != lastBandwidth || lastInputBandwidth != input->bandwidth) { resamplerRatio = (double) (bandwidth) / (double) input->bandwidth; float As = 120.0f; if (resampler) { msresamp_crcf_destroy(resampler); } resampler = msresamp_crcf_create(resamplerRatio, As); lastBandwidth = bandwidth; lastInputBandwidth = input->bandwidth; } int out_size = ceil((double) (input->data.size()) * resamplerRatio) + 512; if (resampleBuffer.size() != out_size) { if (resampleBuffer.capacity() < out_size) { resampleBuffer.reserve(out_size); } resampleBuffer.resize(out_size); } unsigned int num_written; msresamp_crcf_execute(resampler, &shiftBuffer[0], input->data.size(), &resampleBuffer[0], &num_written); resampleBuffer.resize(fft_size); if (num_written < fft_size) { for (int i = 0; i < num_written; i++) { in[i][0] = resampleBuffer[i].real; in[i][1] = resampleBuffer[i].imag; } for (int i = num_written; i < fft_size; i++) { in[i][0] = 0; in[i][1] = 0; } } else { for (int i = 0; i < fft_size; i++) { in[i][0] = resampleBuffer[i].real; in[i][1] = resampleBuffer[i].imag; } } } else { if (data->size() < fft_size) { for (int i = 0, iMax = data->size(); i < iMax; i++) { in[i][0] = (*data)[i].real; in[i][1] = (*data)[i].imag; } for (int i = data->size(); i < fft_size; i++) { in[i][0] = 0; in[i][1] = 0; } } else { for (int i = 0; i < fft_size; i++) { in[i][0] = (*data)[i].real; in[i][1] = (*data)[i].imag; } } } fftw_execute(plan); double fft_ceil = 0, fft_floor = 1; if (fft_result.size() < fft_size) { fft_result.resize(fft_size); fft_result_ma.resize(fft_size); fft_result_maa.resize(fft_size); } int n; for (int i = 0, iMax = fft_size / 2; i < iMax; i++) { n = (i == 0) ? 1 : i; double a = out[n][0]; double b = out[n][1]; double c = sqrt(a * a + b * b); double x = out[fft_size / 2 + n][0]; double y = out[fft_size / 2 + n][1]; double z = sqrt(x * x + y * y); fft_result[i] = (z); fft_result[fft_size / 2 + i] = (c); } for (int i = 0, iMax = fft_size; i < iMax; i++) { if (isView) { fft_result_maa[i] += (fft_result_ma[i] - fft_result_maa[i]) * 0.85; fft_result_ma[i] += (fft_result[i] - fft_result_ma[i]) * 0.55; } else { fft_result_maa[i] += (fft_result_ma[i] - fft_result_maa[i]) * 0.65; fft_result_ma[i] += (fft_result[i] - fft_result_ma[i]) * 0.65; } if (fft_result_maa[i] > fft_ceil) { fft_ceil = fft_result_maa[i]; } if (fft_result_maa[i] < fft_floor) { fft_floor = fft_result_maa[i]; } } fft_ceil += 1; fft_floor -= 1; fft_ceil_ma = fft_ceil_ma + (fft_ceil - fft_ceil_ma) * 0.05; fft_ceil_maa = fft_ceil_maa + (fft_ceil_ma - fft_ceil_maa) * 0.05; fft_floor_ma = fft_floor_ma + (fft_floor - fft_floor_ma) * 0.05; fft_floor_maa = fft_floor_maa + (fft_floor_ma - fft_floor_maa) * 0.05; for (int i = 0, iMax = fft_size; i < iMax; i++) { double v = (log10(fft_result_maa[i] - fft_floor_maa) / log10(fft_ceil_maa - fft_floor_maa)); spectrum_points[i * 2] = ((float) i / (float) iMax); spectrum_points[i * 2 + 1] = v; } if (spectrumCanvas) { spectrumCanvas->spectrum_points.assign(spectrum_points.begin(), spectrum_points.end()); } } } void WaterfallCanvas::OnIdle(wxIdleEvent &event) { Refresh(false); } void WaterfallCanvas::OnMouseMoved(wxMouseEvent& event) { InteractiveCanvas::OnMouseMoved(event); DemodulatorInstance *demod = wxGetApp().getDemodMgr().getActiveDemodulator(); if (mouseTracker.mouseDown()) { if (demod == NULL) { return; } if (dragState == WF_DRAG_BANDWIDTH_LEFT || dragState == WF_DRAG_BANDWIDTH_RIGHT) { int bwDiff = (int) (mouseTracker.getDeltaMouseX() * (float) getBandwidth()) * 2; if (dragState == WF_DRAG_BANDWIDTH_LEFT) { bwDiff = -bwDiff; } if (!activeDemodulatorBandwidth) { activeDemodulatorBandwidth = demod->getParams().bandwidth; } DemodulatorThreadCommand command; command.cmd = DemodulatorThreadCommand::DEMOD_THREAD_CMD_SET_BANDWIDTH; activeDemodulatorBandwidth = activeDemodulatorBandwidth + bwDiff; if (activeDemodulatorBandwidth > SRATE) { activeDemodulatorBandwidth = SRATE; } if (activeDemodulatorBandwidth < MIN_BANDWIDTH) { activeDemodulatorBandwidth = MIN_BANDWIDTH; } command.int_value = activeDemodulatorBandwidth; demod->getCommandQueue()->push(command); setStatusText("Set demodulator bandwidth: %s", activeDemodulatorBandwidth); } if (dragState == WF_DRAG_FREQUENCY) { int bwDiff = (int) (mouseTracker.getDeltaMouseX() * (float) getBandwidth()); if (!activeDemodulatorFrequency) { activeDemodulatorFrequency = demod->getParams().frequency; } DemodulatorThreadCommand command; command.cmd = DemodulatorThreadCommand::DEMOD_THREAD_CMD_SET_FREQUENCY; activeDemodulatorFrequency = activeDemodulatorFrequency + bwDiff; command.int_value = activeDemodulatorFrequency; demod->getCommandQueue()->push(command); demod->updateLabel(activeDemodulatorFrequency); setStatusText("Set demodulator frequency: %s", activeDemodulatorFrequency); } } else if (mouseTracker.mouseRightDown()) { mouseZoom = mouseZoom + ((1.0 - (mouseTracker.getDeltaMouseY()*4.0))-mouseZoom) * 0.1; } else { int freqPos = getFrequencyAt(mouseTracker.getMouseX()); std::vector *demodsHover = wxGetApp().getDemodMgr().getDemodulatorsAt(freqPos, 15000); wxGetApp().getDemodMgr().setActiveDemodulator(NULL); if (altDown) { nextDragState = WF_DRAG_RANGE; mouseTracker.setVertDragLock(true); mouseTracker.setHorizDragLock(false); if (shiftDown) { setStatusText("Click and drag to create a new demodulator by range."); } else { setStatusText("Click and drag to set the current demodulator range."); } } else if (demodsHover->size()) { int hovered = -1; int near_dist = getBandwidth(); DemodulatorInstance *activeDemodulator = NULL; for (int i = 0, iMax = demodsHover->size(); i < iMax; i++) { DemodulatorInstance *demod = (*demodsHover)[i]; int freqDiff = (int) demod->getParams().frequency - freqPos; int halfBw = (demod->getParams().bandwidth / 2); int dist = abs(freqDiff); if (dist < near_dist) { activeDemodulator = demod; near_dist = dist; } if (dist <= halfBw && dist >= (int) ((float) halfBw / (float) 1.5)) { int edge_dist = abs(halfBw - dist); if (edge_dist < near_dist) { activeDemodulator = demod; near_dist = edge_dist; } } } if (activeDemodulator == NULL) { return; } wxGetApp().getDemodMgr().setActiveDemodulator(activeDemodulator); int freqDiff = ((int) activeDemodulator->getParams().frequency - freqPos); if (abs(freqDiff) > (activeDemodulator->getParams().bandwidth / 3)) { SetCursor(wxCURSOR_SIZEWE); if (freqDiff > 0) { nextDragState = WF_DRAG_BANDWIDTH_LEFT; } else { nextDragState = WF_DRAG_BANDWIDTH_RIGHT; } mouseTracker.setVertDragLock(true); mouseTracker.setHorizDragLock(false); setStatusText("Click and drag to change demodulator bandwidth. D to delete, SPACE for stereo."); } else { SetCursor(wxCURSOR_SIZING); nextDragState = WF_DRAG_FREQUENCY; mouseTracker.setVertDragLock(true); mouseTracker.setHorizDragLock(false); setStatusText("Click and drag to change demodulator frequency. D to delete, SPACE for stereo."); } } else { SetCursor(wxCURSOR_CROSS); nextDragState = WF_DRAG_NONE; if (shiftDown) { setStatusText("Click to create a new demodulator or hold ALT to drag range."); } else { setStatusText("Click to move active demodulator frequency or hold ALT to drag range; hold SHIFT to create new. Right drag or A / Z to Zoom. Arrow keys (+SHIFT) to move center frequency."); } } delete demodsHover; } } void WaterfallCanvas::OnMouseDown(wxMouseEvent& event) { InteractiveCanvas::OnMouseDown(event); dragState = nextDragState; if (dragState && dragState != WF_DRAG_RANGE) { wxGetApp().getDemodMgr().setActiveDemodulator(wxGetApp().getDemodMgr().getActiveDemodulator(), false); } activeDemodulatorBandwidth = 0; activeDemodulatorFrequency = 0; } void WaterfallCanvas::OnMouseWheelMoved(wxMouseEvent& event) { InteractiveCanvas::OnMouseWheelMoved(event); } void WaterfallCanvas::OnMouseReleased(wxMouseEvent& event) { InteractiveCanvas::OnMouseReleased(event); bool isNew = shiftDown || (wxGetApp().getDemodMgr().getLastActiveDemodulator() && !wxGetApp().getDemodMgr().getLastActiveDemodulator()->isActive()); mouseTracker.setVertDragLock(false); mouseTracker.setHorizDragLock(false); DemodulatorInstance *demod; if (mouseTracker.getOriginDeltaMouseX() == 0 && mouseTracker.getOriginDeltaMouseY() == 0) { float pos = mouseTracker.getMouseX(); int input_center_freq = getCenterFrequency(); int freq = input_center_freq - (int) (0.5 * (float) getBandwidth()) + (int) ((float) pos * (float) getBandwidth()); if (dragState == WF_DRAG_NONE) { if (!isNew && wxGetApp().getDemodMgr().getDemodulators().size()) { demod = wxGetApp().getDemodMgr().getLastActiveDemodulator(); } else { demod = wxGetApp().getDemodMgr().newThread(); demod->getParams().frequency = freq; if (DemodulatorInstance *last = wxGetApp().getDemodMgr().getLastActiveDemodulator()) { demod->getParams().bandwidth = last->getParams().bandwidth; demod->setDemodulatorType(last->getDemodulatorType()); demod->setSquelchLevel(last->getSquelchLevel()); demod->setSquelchEnabled(last->isSquelchEnabled()); demod->setStereo(last->isStereo()); } demod->run(); wxGetApp().bindDemodulator(demod); wxGetApp().getDemodMgr().setActiveDemodulator(demod, false); } if (demod == NULL) { dragState = WF_DRAG_NONE; return; } demod->updateLabel(freq); DemodulatorThreadCommand command; command.cmd = DemodulatorThreadCommand::DEMOD_THREAD_CMD_SET_FREQUENCY; command.int_value = freq; demod->getCommandQueue()->push(command); setStatusText("New demodulator at frequency: %s", freq); wxGetApp().getDemodMgr().setActiveDemodulator(wxGetApp().getDemodMgr().getLastActiveDemodulator(), false); SetCursor(wxCURSOR_SIZING); nextDragState = WF_DRAG_FREQUENCY; mouseTracker.setVertDragLock(true); mouseTracker.setHorizDragLock(false); } else { wxGetApp().getDemodMgr().setActiveDemodulator(wxGetApp().getDemodMgr().getActiveDemodulator(), false); nextDragState = WF_DRAG_FREQUENCY; } } else if (dragState == WF_DRAG_RANGE) { float width = mouseTracker.getOriginDeltaMouseX(); float pos = mouseTracker.getOriginMouseX() + width / 2.0; int input_center_freq = getCenterFrequency(); unsigned int freq = input_center_freq - (int) (0.5 * (float) getBandwidth()) + (int) ((float) pos * (float) getBandwidth()); unsigned int bw = (unsigned int) (fabs(width) * (float) getBandwidth()); if (bw < MIN_BANDWIDTH) { bw = MIN_BANDWIDTH; } if (!bw) { dragState = WF_DRAG_NONE; return; } if (!isNew && wxGetApp().getDemodMgr().getDemodulators().size()) { demod = wxGetApp().getDemodMgr().getLastActiveDemodulator(); } else { demod = wxGetApp().getDemodMgr().newThread(); demod->getParams().frequency = freq; demod->getParams().bandwidth = bw; if (DemodulatorInstance *last = wxGetApp().getDemodMgr().getLastActiveDemodulator()) { demod->setDemodulatorType(last->getDemodulatorType()); demod->setSquelchLevel(last->getSquelchLevel()); demod->setSquelchEnabled(last->isSquelchEnabled()); demod->setStereo(last->isStereo()); } demod->run(); wxGetApp().bindDemodulator(demod); wxGetApp().getDemodMgr().setActiveDemodulator(demod, false); } if (demod == NULL) { dragState = WF_DRAG_NONE; return; } setStatusText("New demodulator at frequency: %s", freq); wxGetApp().getDemodMgr().setActiveDemodulator(wxGetApp().getDemodMgr().getLastActiveDemodulator(), false); demod->updateLabel(freq); DemodulatorThreadCommand command; command.cmd = DemodulatorThreadCommand::DEMOD_THREAD_CMD_SET_FREQUENCY; command.int_value = freq; demod->getCommandQueue()->push(command); command.cmd = DemodulatorThreadCommand::DEMOD_THREAD_CMD_SET_BANDWIDTH; command.int_value = bw; demod->getCommandQueue()->push(command); } dragState = WF_DRAG_NONE; } void WaterfallCanvas::OnMouseLeftWindow(wxMouseEvent& event) { InteractiveCanvas::OnMouseLeftWindow(event); SetCursor(wxCURSOR_CROSS); wxGetApp().getDemodMgr().setActiveDemodulator(NULL); mouseZoom = 1.0; } void WaterfallCanvas::OnMouseEnterWindow(wxMouseEvent& event) { InteractiveCanvas::OnMouseEnterWindow(event); SetCursor(wxCURSOR_CROSS); } void WaterfallCanvas::OnMouseRightDown(wxMouseEvent& event) { InteractiveCanvas::OnMouseRightDown(event); SetCursor(wxCURSOR_SIZENS); mouseTracker.setVertDragLock(true); mouseTracker.setHorizDragLock(true); } void WaterfallCanvas::OnMouseRightReleased(wxMouseEvent& event) { InteractiveCanvas::OnMouseRightReleased(event); SetCursor(wxCURSOR_CROSS); mouseTracker.setVertDragLock(false); mouseTracker.setHorizDragLock(false); mouseZoom = 1.0; }