Exemplo n.º 1
0
void SpikeDetectorEditor::drawElectrodeButtons(int ID)
{

    SpikeDetector* processor = (SpikeDetector*) getProcessor();

    electrodeButtons.clear();

    int width = 20;
    int height = 15;

    int numChannels = processor->getNumChannels(ID);
    int row = 0;
    int column = 0;

    Array<int> activeChannels;
    Array<double> thresholds;

    for (int i = 0; i < numChannels; i++)
    {
        ElectrodeButton* button = new ElectrodeButton(processor->getChannel(ID,i)+1);
        electrodeButtons.add(button);

        thresholds.add(processor->getChannelThreshold(ID,i));

        if (electrodeEditorButtons[0]->getToggleState())
        {
            button->setToggleState(false, dontSendNotification);
            button->setRadioGroupId(299);
        }
        else
        {
            activeChannels.add(processor->getChannel(ID,i));

            button->setToggleState(processor->isChannelActive(ID,i), dontSendNotification);
        }

        if (numChannels < 3)
            button->setBounds(145+(column++)*width, 78+row*height, width, 15);
        else
            button->setBounds(145+(column++)*width, 70+row*height, width, 15);

        addAndMakeVisible(button);
        button->addListener(this);

        if (column%2 == 0)
        {
            column = 0;
            row++;
        }

    }

    channelSelector->setActiveChannels(activeChannels);
    thresholdSlider->setValues(thresholds);
}
Exemplo n.º 2
0
void SpikeDetectorEditor::buttonEvent(Button* button)
{


    if (electrodeButtons.contains((ElectrodeButton*) button))
    {

        if (electrodeEditorButtons[0]->getToggleState()) // EDIT is active
        {
            ElectrodeButton* eb = (ElectrodeButton*) button;
            int electrodeNum = eb->getChannelNum()-1;

            // std::cout << "Channel number: " << electrodeNum << std::endl;
            Array<int> a;
            a.add(electrodeNum);
            channelSelector->setActiveChannels(a);

            SpikeDetector* processor = (SpikeDetector*) getProcessor();

            thresholdSlider->setActive(true);
            thresholdSlider->setValue(processor->getChannelThreshold(electrodeList->getSelectedItemIndex(),
                                                                     electrodeButtons.indexOf((ElectrodeButton*) button)));
        }
        else
        {

            SpikeDetector* processor = (SpikeDetector*) getProcessor();

            ElectrodeButton* eb = (ElectrodeButton*) button;
            int electrodeNum = electrodeList->getSelectedItemIndex();
            int channelNum = electrodeButtons.indexOf(eb);

            processor->setChannelActive(electrodeNum,
                                        channelNum,
                                        button->getToggleState());

            std::cout << "Disabling channel " << channelNum <<
                      " of electrode " << electrodeNum << std::endl;

        }


    }


    int num = numElectrodes->getText().getIntValue();

    if (button == upButton)
    {
        numElectrodes->setText(String(++num), sendNotification);

        return;

    }
    else if (button == downButton)
    {

        if (num > 1)
            numElectrodes->setText(String(--num), sendNotification);

        return;

    }
    else if (button == plusButton)
    {
        // std::cout << "Plus button pressed!" << std::endl;
        if (acquisitionIsActive)
        {
            CoreServices::sendStatusMessage("Stop acquisition before adding electrodes.");
            return;
        }

        int type = electrodeTypes->getSelectedId();
        // std::cout << type << std::endl;
        int nChans;

        switch (type)
        {
            case 1:
                nChans = 1;
                break;
            case 2:
                nChans = 2;
                break;
            case 3:
                nChans = 4;
                break;
            default:
                nChans = 1;
        }

        for (int n = 0; n < num; n++)
        {
            if (!addElectrode(nChans))
            {
                CoreServices::sendStatusMessage("Not enough channels to add electrode.");
            }
        }

        electrodeEditorButtons[1]->setToggleState(false, dontSendNotification);

		CoreServices::updateSignalChain(this);
		CoreServices::highlightEditor(this);
        return;

    }
    else if (button == electrodeEditorButtons[0])   // EDIT
    {

        Array<int> activeChannels;

        for (int i = 0; i < electrodeButtons.size(); i++)
        {
            if (button->getToggleState())
            {
                electrodeButtons[i]->setToggleState(false, dontSendNotification);
                electrodeButtons[i]->setRadioGroupId(299);
                channelSelector->activateButtons();
                channelSelector->setRadioStatus(true);
            }
            else
            {
                electrodeButtons[i]->setToggleState(true, dontSendNotification);
                electrodeButtons[i]->setRadioGroupId(0);
                channelSelector->inactivateButtons();
                channelSelector->setRadioStatus(false);
                activeChannels.add(electrodeButtons[i]->getChannelNum()-1);
            }
        }


        if (!button->getToggleState())
        {
            thresholdSlider->setActive(false);

            // This will be -1 with nothing selected
            int selectedItemIndex = electrodeList->getSelectedItemIndex();
            if (selectedItemIndex != -1)
            {
                drawElectrodeButtons(selectedItemIndex);
            }
            else
            {
                electrodeButtons.clear();
            }
        }

        //   channelSelector->setActiveChannels(activeChannels);

        return;

    }
    else if (button == electrodeEditorButtons[1])   // MONITOR
    {

        Button* audioMonitorButton = electrodeEditorButtons[1];

        channelSelector->clearAudio();

        SpikeDetector* processor = (SpikeDetector*) getProcessor();

        Array<SimpleElectrode*> electrodes = processor->getElectrodes();

        for (int i = 0; i < electrodes.size(); i++)
        {
            SimpleElectrode* e = electrodes[i];
            e->isMonitored = false;
        }

        SimpleElectrode* e = processor->getActiveElectrode();

        if (e != nullptr)
        {

            e->isMonitored = audioMonitorButton->getToggleState();

            for (int i = 0; i < e->numChannels; i++)
            {
                std::cout << "Channel " << e->channels[i] << std::endl;
                int channelNum = e->channels[i];
                channelSelector->setAudioStatus(channelNum, audioMonitorButton->getToggleState());

            }
        }
        else
        {
            audioMonitorButton->setToggleState(false, dontSendNotification);
        }

        return;
    }
    else if (button == electrodeEditorButtons[2])   // DELETE
    {
        if (acquisitionIsActive)
        {
            CoreServices::sendStatusMessage("Stop acquisition before deleting electrodes.");
            return;
        }

        removeElectrode(electrodeList->getSelectedItemIndex());

		CoreServices::updateSignalChain(this);
		CoreServices::highlightEditor(this);

        return;
    }



}
Exemplo n.º 3
0
void SpikeDetectorEditor::buttonEvent(Button* button)
{

    if (electrodeEditorButtons[0]->getToggleState()) // EDIT is active
    {

        std::cout << "Editing active." << std::endl;

        if (electrodeButtons.contains((ElectrodeButton*) button))
        {
            ElectrodeButton* eb = (ElectrodeButton*) button;
            int electrodeNum = eb->getChannelNum()-1;

            std::cout << "Channel number: " << electrodeNum << std::endl;
            Array<int> a;
            a.add(electrodeNum);
            channelSelector->setActiveChannels(a);

            SpikeDetector* processor = (SpikeDetector*) getProcessor();

            thresholdSlider->setActive(true);
            thresholdSlider->setValue(processor->getChannelThreshold(electrodeList->getSelectedItemIndex(),
                                                                     electrodeButtons.indexOf((ElectrodeButton*) button)));
        }
    }

    int num = numElectrodes->getText().getIntValue();

    if (button == upButton)
    {
        numElectrodes->setText(String(++num), true);

        return;

    }
    else if (button == downButton)
    {

        if (num > 1)
            numElectrodes->setText(String(--num), true);

        return;

    }
    else if (button == plusButton)
    {
        // std::cout << "Plus button pressed!" << std::endl;

        int type = electrodeTypes->getSelectedId();
        std::cout << type << std::endl;
        int nChans;

        switch (type)
        {
            case 1:
                nChans = 1;
                break;
            case 2:
                nChans = 2;
                break;
            case 3:
                nChans = 4;
                break;
            default:
                nChans = 1;
        }

        for (int n = 0; n < num; n++)
        {
            if (!addElectrode(nChans))
            {
                sendActionMessage("Not enough channels to add electrode.");
            }
        }

        refreshElectrodeList();

        if (electrodeList->getNumItems() > 0)
        {
            electrodeList->setSelectedId(electrodeList->getNumItems(), true);
            electrodeList->setText(electrodeList->getItemText(electrodeList->getNumItems()-1));
            lastId = electrodeList->getNumItems();
            electrodeList->setEditableText(true);

            drawElectrodeButtons(electrodeList->getNumItems()-1);
        }

        getEditorViewport()->makeEditorVisible(this, true, true);
        return;

    }
    else if (button == electrodeEditorButtons[0])   // EDIT
    {

        Array<int> activeChannels;

        for (int i = 0; i < electrodeButtons.size(); i++)
        {
            if (button->getToggleState())
            {
                electrodeButtons[i]->setToggleState(false, false);
                electrodeButtons[i]->setRadioGroupId(299);
                channelSelector->activateButtons();
                channelSelector->setRadioStatus(true);
            }
            else
            {
                electrodeButtons[i]->setToggleState(true, false);
                electrodeButtons[i]->setRadioGroupId(0);
                channelSelector->inactivateButtons();
                channelSelector->setRadioStatus(false);
                activeChannels.add(electrodeButtons[i]->getChannelNum()-1);
            }
        }


        if (!button->getToggleState())
        {
            thresholdSlider->setActive(false);

            // This will be -1 with nothing selected
            int selectedItemIndex = electrodeList->getSelectedItemIndex();
            if (selectedItemIndex != -1)
            {
                drawElectrodeButtons(selectedItemIndex);
            }
            else
            {
                electrodeButtons.clear();
            }
        }

        //   channelSelector->setActiveChannels(activeChannels);

        return;

    }
    else if (button == electrodeEditorButtons[1])   // MONITOR
    {
        return;
    }
    else if (button == electrodeEditorButtons[2])   // DELETE
    {

        removeElectrode(electrodeList->getSelectedItemIndex());

        getEditorViewport()->makeEditorVisible(this, true, true);

        return;
    }



}
Exemplo n.º 4
0
RHD2000Editor::RHD2000Editor(GenericProcessor* parentNode,
                             RHD2000Thread* board_,
                             bool useDefaultParameterEditors
                            )
    : GenericEditor(parentNode, useDefaultParameterEditors), board(board_)
{
    desiredWidth = 260;

    // add headstage-specific controls (currently just an enable/disable button)
    for (int i = 0; i < 4; i++)
    {
        HeadstageOptionsInterface* hsOptions = new HeadstageOptionsInterface(board, this, i);
        headstageOptionsInterfaces.add(hsOptions);
        addAndMakeVisible(hsOptions);
        hsOptions->setBounds(3, 28+i*20, 70, 18);
    }

    // add sample rate selection
    sampleRateInterface = new SampleRateInterface(board, this);
    addAndMakeVisible(sampleRateInterface);
    sampleRateInterface->setBounds(80, 25, 100, 50);

    // add Bandwidth selection
    bandwidthInterface = new BandwidthInterface(board, this);
    addAndMakeVisible(bandwidthInterface);
    bandwidthInterface->setBounds(80, 65, 80, 50);

    // add rescan button
    rescanButton = new UtilityButton("RESCAN", Font("Small Text", 13, Font::plain));
    rescanButton->setRadius(3.0f);
    rescanButton->setBounds(6, 108,65,18);
    rescanButton->addListener(this);
    rescanButton->setTooltip("Check for connected headstages");
    addAndMakeVisible(rescanButton);

    for (int i = 0; i < 2; i++)
    {
        ElectrodeButton* button = new ElectrodeButton(-1);
        electrodeButtons.add(button);

        button->setBounds(190+i*25, 40, 25, 15);
        button->setChannelNum(-1);
        button->setToggleState(false,false);
        button->setRadioGroupId(999);

        addAndMakeVisible(button);
        button->addListener(this);
        
        if (i == 0)
        {
            button->setTooltip("Audio monitor left channel");
        } else {
            button->setTooltip("Audio monitor right channel");
        }
    }
    

    audioLabel = new Label("audio label", "Audio out");
    audioLabel->setBounds(180,25,75,15);
    audioLabel->setFont(Font("Small Text", 10, Font::plain));
    audioLabel->setColour(Label::textColourId, Colours::darkgrey);
    addAndMakeVisible(audioLabel);

    // add HW audio parameter selection
    audioInterface = new AudioInterface(board, this);
    addAndMakeVisible(audioInterface);
    audioInterface->setBounds(165, 65, 65, 50);
    
    
    adcButton = new UtilityButton("ADC 1-8", Font("Small Text", 13, Font::plain));
    adcButton->setRadius(3.0f);
    adcButton->setBounds(165,100,65,18);
    adcButton->addListener(this);
    adcButton->setClickingTogglesState(true);
    adcButton->setTooltip("Enable/disable ADC channels");
    addAndMakeVisible(adcButton);


}
Exemplo n.º 5
0
RHD2000Editor::RHD2000Editor(GenericProcessor* parentNode,
                             RHD2000Thread* board_,
                             bool useDefaultParameterEditors
                            )
    : VisualizerEditor(parentNode, useDefaultParameterEditors), board(board_)
{
    canvas = nullptr;
    desiredWidth = 340;
    tabText = "FPGA";
    measureWhenRecording = false;
    saveImpedances = false;

	impedanceData = new ImpedanceData();
	impedanceData->valid = false;

    // add headstage-specific controls (currently just an enable/disable button)
    for (int i = 0; i < 4; i++)
    {
        HeadstageOptionsInterface* hsOptions = new HeadstageOptionsInterface(board, this, i);
        headstageOptionsInterfaces.add(hsOptions);
        addAndMakeVisible(hsOptions);
        hsOptions->setBounds(3, 28+i*20, 70, 18);
    }

    // add sample rate selection
    sampleRateInterface = new SampleRateInterface(board, this);
    addAndMakeVisible(sampleRateInterface);
    sampleRateInterface->setBounds(80, 25, 110, 50);

    // add Bandwidth selection
    bandwidthInterface = new BandwidthInterface(board, this);
    addAndMakeVisible(bandwidthInterface);
    bandwidthInterface->setBounds(80, 58, 80, 50);

    // add DSP selection
  //  dspInterface = new DSPInterface(board, this);
  //  addAndMakeVisible(dspInterface);
  //  dspInterface->setBounds(80, 58, 80, 50);

    // add rescan button
    rescanButton = new UtilityButton("RESCAN", Font("Small Text", 13, Font::plain));
    rescanButton->setRadius(3.0f);
    rescanButton->setBounds(6, 108,65,18);
    rescanButton->addListener(this);
    rescanButton->setTooltip("Check for connected headstages");
    addAndMakeVisible(rescanButton);

    for (int i = 0; i < 2; i++)
    {
        ElectrodeButton* button = new ElectrodeButton(-1);
        electrodeButtons.add(button);

        button->setBounds(200+i*25, 40, 25, 15);
        button->setChannelNum(-1);
        button->setToggleState(false, dontSendNotification);
        button->setRadioGroupId(999);

        addAndMakeVisible(button);
        button->addListener(this);

        if (i == 0)
        {
            button->setTooltip("Audio monitor left channel");
        }
        else
        {
            button->setTooltip("Audio monitor right channel");
        }
    }

    audioLabel = new Label("audio label", "Audio out");
    audioLabel->setBounds(190,25,75,15);
    audioLabel->setFont(Font("Small Text", 10, Font::plain));
    audioLabel->setColour(Label::textColourId, Colours::darkgrey);
    addAndMakeVisible(audioLabel);

    // add HW audio parameter selection
    audioInterface = new AudioInterface(board, this);
    addAndMakeVisible(audioInterface);
    audioInterface->setBounds(179, 58, 70, 50);

    clockInterface = new ClockDivideInterface(board, this);
    addAndMakeVisible(clockInterface);
    clockInterface->setBounds(179, 82, 70, 50);

    adcButton = new UtilityButton("ADC 1-8", Font("Small Text", 13, Font::plain));
    adcButton->setRadius(3.0f);
    adcButton->setBounds(179,108,70,18);
    adcButton->addListener(this);
    adcButton->setClickingTogglesState(true);
    adcButton->setTooltip("Enable/disable ADC channels");
    addAndMakeVisible(adcButton);

	ledButton = new UtilityButton("LED", Font("Very Small Text", 13, Font::plain));
	ledButton->setRadius(3.0f);
	ledButton->setBounds(140, 108, 30, 18);
	ledButton->addListener(this);
	ledButton->setClickingTogglesState(true);
	ledButton->setTooltip("Enable/disable board LEDs");
	addAndMakeVisible(ledButton);
	ledButton->setToggleState(true, dontSendNotification);

    // add DSP Offset Button
    dspoffsetButton = new UtilityButton("DSP", Font("Very Small Text", 13, Font::plain));
    dspoffsetButton->setRadius(3.0f); // sets the radius of the button's corners
    dspoffsetButton->setBounds(80, 108,30,18); // sets the x position, y position, width, and height of the button
    dspoffsetButton->addListener(this);
    dspoffsetButton->setClickingTogglesState(true); // makes the button toggle its state when clicked
    dspoffsetButton->setTooltip("Enable/disable DSP offset removal");
    addAndMakeVisible(dspoffsetButton); // makes the button a child component of the editor and makes it visible
    dspoffsetButton->setToggleState(true, dontSendNotification);

    // add DSP Frequency Selection field
    dspInterface = new DSPInterface(board, this);
    addAndMakeVisible(dspInterface);
    dspInterface->setBounds(110, 108, 30, 50);

    ttlSettleLabel = new Label("TTL Settle","TTL Settle");
    ttlSettleLabel->setFont(Font("Small Text", 11, Font::plain));
    ttlSettleLabel->setBounds(255,80,100,20);
    ttlSettleLabel->setColour(Label::textColourId, Colours::darkgrey);
    addAndMakeVisible(ttlSettleLabel);


    ttlSettleCombo = new ComboBox("FastSettleComboBox");
    ttlSettleCombo->setBounds(260,100,60,18);
    ttlSettleCombo->addListener(this);
    ttlSettleCombo->addItem("-",1);
    for (int k=0; k<8; k++)
    {
        ttlSettleCombo->addItem("TTL"+String(1+k),2+k);
    }
    ttlSettleCombo->setSelectedId(1, sendNotification);
    addAndMakeVisible(ttlSettleCombo);

    dacTTLButton = new UtilityButton("DAC TTL", Font("Small Text", 13, Font::plain));
    dacTTLButton->setRadius(3.0f);
    dacTTLButton->setBounds(260,25,65,18);
    dacTTLButton->addListener(this);
    dacTTLButton->setClickingTogglesState(true);
    dacTTLButton->setTooltip("Enable/disable DAC Threshold TTL Output");
    addAndMakeVisible(dacTTLButton);

    dacHPFlabel = new Label("DAC HPF","DAC HPF");
    dacHPFlabel->setFont(Font("Small Text", 11, Font::plain));
    dacHPFlabel->setBounds(260,42,100,20);
    dacHPFlabel->setColour(Label::textColourId, Colours::darkgrey);
    addAndMakeVisible(dacHPFlabel);

    dacHPFcombo = new ComboBox("dacHPFCombo");
    dacHPFcombo->setBounds(260,60,60,18);
    dacHPFcombo->addListener(this);
    dacHPFcombo->addItem("OFF",1);
    int HPFvalues[10] = {50,100,200,300,400,500,600,700,800,900};
    for (int k=0; k<10; k++)
    {
        dacHPFcombo->addItem(String(HPFvalues[k])+" Hz",2+k);
    }
    dacHPFcombo->setSelectedId(1, sendNotification);
    addAndMakeVisible(dacHPFcombo);

}