juicysfplugin/modules/juce_audio_utils/gui/juce_AudioDeviceSelectorComponent.cpp

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/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2017 - ROLI Ltd.
JUCE is an open source library subject to commercial or open-source
licensing.
By using JUCE, you agree to the terms of both the JUCE 5 End-User License
Agreement and JUCE 5 Privacy Policy (both updated and effective as of the
27th April 2017).
End User License Agreement: www.juce.com/juce-5-licence
Privacy Policy: www.juce.com/juce-5-privacy-policy
Or: You may also use this code under the terms of the GPL v3 (see
www.gnu.org/licenses).
JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
DISCLAIMED.
==============================================================================
*/
namespace juce
{
struct SimpleDeviceManagerInputLevelMeter : public Component,
public Timer
{
SimpleDeviceManagerInputLevelMeter (AudioDeviceManager& m) : manager (m)
{
startTimerHz (20);
inputLevelGetter = manager.getInputLevelGetter();
}
~SimpleDeviceManagerInputLevelMeter() override
{
}
void timerCallback() override
{
if (isShowing())
{
auto newLevel = (float) inputLevelGetter->getCurrentLevel();
if (std::abs (level - newLevel) > 0.005f)
{
level = newLevel;
repaint();
}
}
else
{
level = 0;
}
}
void paint (Graphics& g) override
{
// (add a bit of a skew to make the level more obvious)
getLookAndFeel().drawLevelMeter (g, getWidth(), getHeight(),
(float) std::exp (std::log (level) / 3.0));
}
AudioDeviceManager& manager;
AudioDeviceManager::LevelMeter::Ptr inputLevelGetter;
float level = 0;
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (SimpleDeviceManagerInputLevelMeter)
};
//==============================================================================
class AudioDeviceSelectorComponent::MidiInputSelectorComponentListBox : public ListBox,
private ListBoxModel
{
public:
MidiInputSelectorComponentListBox (AudioDeviceManager& dm, const String& noItems)
: ListBox ({}, nullptr),
deviceManager (dm),
noItemsMessage (noItems)
{
updateDevices();
setModel (this);
setOutlineThickness (1);
}
void updateDevices()
{
items = MidiInput::getDevices();
}
int getNumRows() override
{
return items.size();
}
void paintListBoxItem (int row, Graphics& g, int width, int height, bool rowIsSelected) override
{
if (isPositiveAndBelow (row, items.size()))
{
if (rowIsSelected)
g.fillAll (findColour (TextEditor::highlightColourId)
.withMultipliedAlpha (0.3f));
auto item = items[row];
bool enabled = deviceManager.isMidiInputEnabled (item);
auto x = getTickX();
auto tickW = height * 0.75f;
getLookAndFeel().drawTickBox (g, *this, x - tickW, (height - tickW) / 2, tickW, tickW,
enabled, true, true, false);
g.setFont (height * 0.6f);
g.setColour (findColour (ListBox::textColourId, true).withMultipliedAlpha (enabled ? 1.0f : 0.6f));
g.drawText (item, x + 5, 0, width - x - 5, height, Justification::centredLeft, true);
}
}
void listBoxItemClicked (int row, const MouseEvent& e) override
{
selectRow (row);
if (e.x < getTickX())
flipEnablement (row);
}
void listBoxItemDoubleClicked (int row, const MouseEvent&) override
{
flipEnablement (row);
}
void returnKeyPressed (int row) override
{
flipEnablement (row);
}
void paint (Graphics& g) override
{
ListBox::paint (g);
if (items.isEmpty())
{
g.setColour (Colours::grey);
g.setFont (0.5f * getRowHeight());
g.drawText (noItemsMessage,
0, 0, getWidth(), getHeight() / 2,
Justification::centred, true);
}
}
int getBestHeight (int preferredHeight)
{
auto extra = getOutlineThickness() * 2;
return jmax (getRowHeight() * 2 + extra,
jmin (getRowHeight() * getNumRows() + extra,
preferredHeight));
}
private:
//==============================================================================
AudioDeviceManager& deviceManager;
const String noItemsMessage;
StringArray items;
void flipEnablement (const int row)
{
if (isPositiveAndBelow (row, items.size()))
{
auto item = items[row];
deviceManager.setMidiInputEnabled (item, ! deviceManager.isMidiInputEnabled (item));
}
}
int getTickX() const
{
return getRowHeight();
}
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (MidiInputSelectorComponentListBox)
};
//==============================================================================
struct AudioDeviceSetupDetails
{
AudioDeviceManager* manager;
int minNumInputChannels, maxNumInputChannels;
int minNumOutputChannels, maxNumOutputChannels;
bool useStereoPairs;
};
static String getNoDeviceString() { return "<< " + TRANS("none") + " >>"; }
//==============================================================================
class AudioDeviceSettingsPanel : public Component,
private ChangeListener
{
public:
AudioDeviceSettingsPanel (AudioIODeviceType& t, AudioDeviceSetupDetails& setupDetails,
const bool hideAdvancedOptionsWithButton)
: type (t), setup (setupDetails)
{
if (hideAdvancedOptionsWithButton)
{
showAdvancedSettingsButton.reset (new TextButton (TRANS("Show advanced settings...")));
addAndMakeVisible (showAdvancedSettingsButton.get());
showAdvancedSettingsButton->onClick = [this] { showAdvanced(); };
}
type.scanForDevices();
setup.manager->addChangeListener (this);
}
~AudioDeviceSettingsPanel() override
{
setup.manager->removeChangeListener (this);
}
void resized() override
{
if (auto* parent = findParentComponentOfClass<AudioDeviceSelectorComponent>())
{
Rectangle<int> r (proportionOfWidth (0.35f), 0, proportionOfWidth (0.6f), 3000);
const int maxListBoxHeight = 100;
const int h = parent->getItemHeight();
const int space = h / 4;
if (outputDeviceDropDown != nullptr)
{
auto row = r.removeFromTop (h);
if (testButton != nullptr)
{
testButton->changeWidthToFitText (h);
testButton->setBounds (row.removeFromRight (testButton->getWidth()));
row.removeFromRight (space);
}
outputDeviceDropDown->setBounds (row);
r.removeFromTop (space);
}
if (inputDeviceDropDown != nullptr)
{
auto row = r.removeFromTop (h);
inputLevelMeter->setBounds (row.removeFromRight (testButton != nullptr ? testButton->getWidth() : row.getWidth() / 6));
row.removeFromRight (space);
inputDeviceDropDown->setBounds (row);
r.removeFromTop (space);
}
if (outputChanList != nullptr)
{
outputChanList->setRowHeight (jmin (22, h));
outputChanList->setBounds (r.removeFromTop (outputChanList->getBestHeight (maxListBoxHeight)));
outputChanLabel->setBounds (0, outputChanList->getBounds().getCentreY() - h / 2, r.getX(), h);
r.removeFromTop (space);
}
if (inputChanList != nullptr)
{
inputChanList->setRowHeight (jmin (22, h));
inputChanList->setBounds (r.removeFromTop (inputChanList->getBestHeight (maxListBoxHeight)));
inputChanLabel->setBounds (0, inputChanList->getBounds().getCentreY() - h / 2, r.getX(), h);
r.removeFromTop (space);
}
r.removeFromTop (space * 2);
if (showAdvancedSettingsButton != nullptr)
{
showAdvancedSettingsButton->setBounds (r.withHeight (h));
showAdvancedSettingsButton->changeWidthToFitText();
}
const bool advancedSettingsVisible = showAdvancedSettingsButton == nullptr
|| ! showAdvancedSettingsButton->isVisible();
if (sampleRateDropDown != nullptr)
{
sampleRateDropDown->setVisible (advancedSettingsVisible);
sampleRateDropDown->setBounds (r.removeFromTop (h));
r.removeFromTop (space);
}
if (bufferSizeDropDown != nullptr)
{
bufferSizeDropDown->setVisible (advancedSettingsVisible);
bufferSizeDropDown->setBounds (r.removeFromTop (h));
r.removeFromTop (space);
}
r.removeFromTop (space);
if (showUIButton != nullptr || resetDeviceButton != nullptr)
{
auto buttons = r.removeFromTop (h);
if (showUIButton != nullptr)
{
showUIButton->setVisible (advancedSettingsVisible);
showUIButton->changeWidthToFitText (h);
showUIButton->setBounds (buttons.removeFromLeft (showUIButton->getWidth()));
buttons.removeFromLeft (space);
}
if (resetDeviceButton != nullptr)
{
resetDeviceButton->setVisible (advancedSettingsVisible);
resetDeviceButton->changeWidthToFitText (h);
resetDeviceButton->setBounds (buttons.removeFromLeft (resetDeviceButton->getWidth()));
}
r.removeFromTop (space);
}
setSize (getWidth(), r.getY());
}
else
{
jassertfalse;
}
}
void updateConfig (bool updateOutputDevice, bool updateInputDevice, bool updateSampleRate, bool updateBufferSize)
{
auto config = setup.manager->getAudioDeviceSetup();
String error;
if (updateOutputDevice || updateInputDevice)
{
if (outputDeviceDropDown != nullptr)
config.outputDeviceName = outputDeviceDropDown->getSelectedId() < 0 ? String()
: outputDeviceDropDown->getText();
if (inputDeviceDropDown != nullptr)
config.inputDeviceName = inputDeviceDropDown->getSelectedId() < 0 ? String()
: inputDeviceDropDown->getText();
if (! type.hasSeparateInputsAndOutputs())
config.inputDeviceName = config.outputDeviceName;
if (updateInputDevice)
config.useDefaultInputChannels = true;
else
config.useDefaultOutputChannels = true;
error = setup.manager->setAudioDeviceSetup (config, true);
showCorrectDeviceName (inputDeviceDropDown.get(), true);
showCorrectDeviceName (outputDeviceDropDown.get(), false);
updateControlPanelButton();
resized();
}
else if (updateSampleRate)
{
if (sampleRateDropDown->getSelectedId() > 0)
{
config.sampleRate = sampleRateDropDown->getSelectedId();
error = setup.manager->setAudioDeviceSetup (config, true);
}
}
else if (updateBufferSize)
{
if (bufferSizeDropDown->getSelectedId() > 0)
{
config.bufferSize = bufferSizeDropDown->getSelectedId();
error = setup.manager->setAudioDeviceSetup (config, true);
}
}
if (error.isNotEmpty())
AlertWindow::showMessageBoxAsync (AlertWindow::WarningIcon,
TRANS("Error when trying to open audio device!"),
error);
}
bool showDeviceControlPanel()
{
if (auto* device = setup.manager->getCurrentAudioDevice())
{
Component modalWindow;
modalWindow.setOpaque (true);
modalWindow.addToDesktop (0);
modalWindow.enterModalState();
return device->showControlPanel();
}
return false;
}
void showAdvanced()
{
showAdvancedSettingsButton->setVisible (false);
resized();
}
void showDeviceUIPanel()
{
if (showDeviceControlPanel())
{
setup.manager->closeAudioDevice();
setup.manager->restartLastAudioDevice();
getTopLevelComponent()->toFront (true);
}
}
void playTestSound()
{
setup.manager->playTestSound();
}
void updateAllControls()
{
updateOutputsComboBox();
updateInputsComboBox();
updateControlPanelButton();
updateResetButton();
if (auto* currentDevice = setup.manager->getCurrentAudioDevice())
{
if (setup.maxNumOutputChannels > 0
&& setup.minNumOutputChannels < setup.manager->getCurrentAudioDevice()->getOutputChannelNames().size())
{
if (outputChanList == nullptr)
{
outputChanList.reset (new ChannelSelectorListBox (setup, ChannelSelectorListBox::audioOutputType,
TRANS ("(no audio output channels found)")));
addAndMakeVisible (outputChanList.get());
outputChanLabel.reset (new Label ({}, TRANS("Active output channels:")));
outputChanLabel->setJustificationType (Justification::centredRight);
outputChanLabel->attachToComponent (outputChanList.get(), true);
}
outputChanList->refresh();
}
else
{
outputChanLabel.reset();
outputChanList.reset();
}
if (setup.maxNumInputChannels > 0
&& setup.minNumInputChannels < setup.manager->getCurrentAudioDevice()->getInputChannelNames().size())
{
if (inputChanList == nullptr)
{
inputChanList.reset (new ChannelSelectorListBox (setup, ChannelSelectorListBox::audioInputType,
TRANS("(no audio input channels found)")));
addAndMakeVisible (inputChanList.get());
inputChanLabel.reset (new Label ({}, TRANS("Active input channels:")));
inputChanLabel->setJustificationType (Justification::centredRight);
inputChanLabel->attachToComponent (inputChanList.get(), true);
}
inputChanList->refresh();
}
else
{
inputChanLabel.reset();
inputChanList.reset();
}
updateSampleRateComboBox (currentDevice);
updateBufferSizeComboBox (currentDevice);
}
else
{
jassert (setup.manager->getCurrentAudioDevice() == nullptr); // not the correct device type!
inputChanLabel.reset();
outputChanLabel.reset();
sampleRateLabel.reset();
bufferSizeLabel.reset();
inputChanList.reset();
outputChanList.reset();
sampleRateDropDown.reset();
bufferSizeDropDown.reset();
if (outputDeviceDropDown != nullptr)
outputDeviceDropDown->setSelectedId (-1, dontSendNotification);
if (inputDeviceDropDown != nullptr)
inputDeviceDropDown->setSelectedId (-1, dontSendNotification);
}
sendLookAndFeelChange();
resized();
setSize (getWidth(), getLowestY() + 4);
}
void changeListenerCallback (ChangeBroadcaster*) override
{
updateAllControls();
}
void resetDevice()
{
setup.manager->closeAudioDevice();
setup.manager->restartLastAudioDevice();
}
private:
AudioIODeviceType& type;
const AudioDeviceSetupDetails setup;
std::unique_ptr<ComboBox> outputDeviceDropDown, inputDeviceDropDown, sampleRateDropDown, bufferSizeDropDown;
std::unique_ptr<Label> outputDeviceLabel, inputDeviceLabel, sampleRateLabel, bufferSizeLabel, inputChanLabel, outputChanLabel;
std::unique_ptr<TextButton> testButton;
std::unique_ptr<Component> inputLevelMeter;
std::unique_ptr<TextButton> showUIButton, showAdvancedSettingsButton, resetDeviceButton;
void showCorrectDeviceName (ComboBox* box, bool isInput)
{
if (box != nullptr)
{
auto* currentDevice = setup.manager->getCurrentAudioDevice();
auto index = type.getIndexOfDevice (currentDevice, isInput);
box->setSelectedId (index + 1, dontSendNotification);
if (testButton != nullptr && ! isInput)
testButton->setEnabled (index >= 0);
}
}
void addNamesToDeviceBox (ComboBox& combo, bool isInputs)
{
const StringArray devs (type.getDeviceNames (isInputs));
combo.clear (dontSendNotification);
for (int i = 0; i < devs.size(); ++i)
combo.addItem (devs[i], i + 1);
combo.addItem (getNoDeviceString(), -1);
combo.setSelectedId (-1, dontSendNotification);
}
int getLowestY() const
{
int y = 0;
for (auto* c : getChildren())
y = jmax (y, c->getBottom());
return y;
}
void updateControlPanelButton()
{
auto* currentDevice = setup.manager->getCurrentAudioDevice();
showUIButton.reset();
if (currentDevice != nullptr && currentDevice->hasControlPanel())
{
showUIButton.reset (new TextButton (TRANS ("Control Panel"),
TRANS ("Opens the device's own control panel")));
addAndMakeVisible (showUIButton.get());
showUIButton->onClick = [this] { showDeviceUIPanel(); };
}
resized();
}
void updateResetButton()
{
if (auto* currentDevice = setup.manager->getCurrentAudioDevice())
{
if (currentDevice->hasControlPanel())
{
if (resetDeviceButton == nullptr)
{
resetDeviceButton.reset (new TextButton (TRANS ("Reset Device"),
TRANS ("Resets the audio interface - sometimes needed after changing a device's properties in its custom control panel")));
addAndMakeVisible (resetDeviceButton.get());
resetDeviceButton->onClick = [this] { resetDevice(); };
resized();
}
return;
}
}
resetDeviceButton.reset();
}
void updateOutputsComboBox()
{
if (setup.maxNumOutputChannels > 0 || ! type.hasSeparateInputsAndOutputs())
{
if (outputDeviceDropDown == nullptr)
{
outputDeviceDropDown.reset (new ComboBox());
outputDeviceDropDown->onChange = [this] { updateConfig (true, false, false, false); };
addAndMakeVisible (outputDeviceDropDown.get());
outputDeviceLabel.reset (new Label ({}, type.hasSeparateInputsAndOutputs() ? TRANS("Output:")
: TRANS("Device:")));
outputDeviceLabel->attachToComponent (outputDeviceDropDown.get(), true);
if (setup.maxNumOutputChannels > 0)
{
testButton.reset (new TextButton (TRANS("Test"), TRANS("Plays a test tone")));
addAndMakeVisible (testButton.get());
testButton->onClick = [this] { playTestSound(); };
}
}
addNamesToDeviceBox (*outputDeviceDropDown, false);
}
showCorrectDeviceName (outputDeviceDropDown.get(), false);
}
void updateInputsComboBox()
{
if (setup.maxNumInputChannels > 0 && type.hasSeparateInputsAndOutputs())
{
if (inputDeviceDropDown == nullptr)
{
inputDeviceDropDown.reset (new ComboBox());
inputDeviceDropDown->onChange = [this] { updateConfig (false, true, false, false); };
addAndMakeVisible (inputDeviceDropDown.get());
inputDeviceLabel.reset (new Label ({}, TRANS("Input:")));
inputDeviceLabel->attachToComponent (inputDeviceDropDown.get(), true);
inputLevelMeter.reset (new SimpleDeviceManagerInputLevelMeter (*setup.manager));
addAndMakeVisible (inputLevelMeter.get());
}
addNamesToDeviceBox (*inputDeviceDropDown, true);
}
showCorrectDeviceName (inputDeviceDropDown.get(), true);
}
void updateSampleRateComboBox (AudioIODevice* currentDevice)
{
if (sampleRateDropDown == nullptr)
{
sampleRateDropDown.reset (new ComboBox());
addAndMakeVisible (sampleRateDropDown.get());
sampleRateLabel.reset (new Label ({}, TRANS("Sample rate:")));
sampleRateLabel->attachToComponent (sampleRateDropDown.get(), true);
}
else
{
sampleRateDropDown->clear();
sampleRateDropDown->onChange = {};
}
for (auto rate : currentDevice->getAvailableSampleRates())
{
auto intRate = roundToInt (rate);
sampleRateDropDown->addItem (String (intRate) + " Hz", intRate);
}
sampleRateDropDown->setSelectedId (roundToInt (currentDevice->getCurrentSampleRate()), dontSendNotification);
sampleRateDropDown->onChange = [this] { updateConfig (false, false, true, false); };
}
void updateBufferSizeComboBox (AudioIODevice* currentDevice)
{
if (bufferSizeDropDown == nullptr)
{
bufferSizeDropDown.reset (new ComboBox());
addAndMakeVisible (bufferSizeDropDown.get());
bufferSizeLabel.reset (new Label ({}, TRANS("Audio buffer size:")));
bufferSizeLabel->attachToComponent (bufferSizeDropDown.get(), true);
}
else
{
bufferSizeDropDown->clear();
bufferSizeDropDown->onChange = {};
}
auto currentRate = currentDevice->getCurrentSampleRate();
if (currentRate == 0)
currentRate = 48000.0;
for (auto bs : currentDevice->getAvailableBufferSizes())
bufferSizeDropDown->addItem (String (bs) + " samples (" + String (bs * 1000.0 / currentRate, 1) + " ms)", bs);
bufferSizeDropDown->setSelectedId (currentDevice->getCurrentBufferSizeSamples(), dontSendNotification);
bufferSizeDropDown->onChange = [this] { updateConfig (false, false, false, true); };
}
public:
//==============================================================================
class ChannelSelectorListBox : public ListBox,
private ListBoxModel
{
public:
enum BoxType
{
audioInputType,
audioOutputType
};
//==============================================================================
ChannelSelectorListBox (const AudioDeviceSetupDetails& setupDetails, BoxType boxType, const String& noItemsText)
: ListBox ({}, nullptr), setup (setupDetails), type (boxType), noItemsMessage (noItemsText)
{
refresh();
setModel (this);
setOutlineThickness (1);
}
void refresh()
{
items.clear();
if (auto* currentDevice = setup.manager->getCurrentAudioDevice())
{
if (type == audioInputType)
items = currentDevice->getInputChannelNames();
else if (type == audioOutputType)
items = currentDevice->getOutputChannelNames();
if (setup.useStereoPairs)
{
StringArray pairs;
for (int i = 0; i < items.size(); i += 2)
{
auto& name = items[i];
if (i + 1 >= items.size())
pairs.add (name.trim());
else
pairs.add (getNameForChannelPair (name, items[i + 1]));
}
items = pairs;
}
}
updateContent();
repaint();
}
int getNumRows() override
{
return items.size();
}
void paintListBoxItem (int row, Graphics& g, int width, int height, bool) override
{
if (isPositiveAndBelow (row, items.size()))
{
g.fillAll (findColour (ListBox::backgroundColourId));
auto item = items[row];
bool enabled = false;
auto config = setup.manager->getAudioDeviceSetup();
if (setup.useStereoPairs)
{
if (type == audioInputType)
enabled = config.inputChannels[row * 2] || config.inputChannels[row * 2 + 1];
else if (type == audioOutputType)
enabled = config.outputChannels[row * 2] || config.outputChannels[row * 2 + 1];
}
else
{
if (type == audioInputType)
enabled = config.inputChannels[row];
else if (type == audioOutputType)
enabled = config.outputChannels[row];
}
auto x = getTickX();
auto tickW = height * 0.75f;
getLookAndFeel().drawTickBox (g, *this, x - tickW, (height - tickW) / 2, tickW, tickW,
enabled, true, true, false);
g.setFont (height * 0.6f);
g.setColour (findColour (ListBox::textColourId, true).withMultipliedAlpha (enabled ? 1.0f : 0.6f));
g.drawText (item, x + 5, 0, width - x - 5, height, Justification::centredLeft, true);
}
}
void listBoxItemClicked (int row, const MouseEvent& e) override
{
selectRow (row);
if (e.x < getTickX())
flipEnablement (row);
}
void listBoxItemDoubleClicked (int row, const MouseEvent&) override
{
flipEnablement (row);
}
void returnKeyPressed (int row) override
{
flipEnablement (row);
}
void paint (Graphics& g) override
{
ListBox::paint (g);
if (items.isEmpty())
{
g.setColour (Colours::grey);
g.setFont (0.5f * getRowHeight());
g.drawText (noItemsMessage,
0, 0, getWidth(), getHeight() / 2,
Justification::centred, true);
}
}
int getBestHeight (int maxHeight)
{
return getRowHeight() * jlimit (2, jmax (2, maxHeight / getRowHeight()),
getNumRows())
+ getOutlineThickness() * 2;
}
private:
//==============================================================================
const AudioDeviceSetupDetails setup;
const BoxType type;
const String noItemsMessage;
StringArray items;
static String getNameForChannelPair (const String& name1, const String& name2)
{
String commonBit;
for (int j = 0; j < name1.length(); ++j)
if (name1.substring (0, j).equalsIgnoreCase (name2.substring (0, j)))
commonBit = name1.substring (0, j);
// Make sure we only split the name at a space, because otherwise, things
// like "input 11" + "input 12" would become "input 11 + 2"
while (commonBit.isNotEmpty() && ! CharacterFunctions::isWhitespace (commonBit.getLastCharacter()))
commonBit = commonBit.dropLastCharacters (1);
return name1.trim() + " + " + name2.substring (commonBit.length()).trim();
}
void flipEnablement (int row)
{
jassert (type == audioInputType || type == audioOutputType);
if (isPositiveAndBelow (row, items.size()))
{
auto config = setup.manager->getAudioDeviceSetup();
if (setup.useStereoPairs)
{
BigInteger bits;
auto& original = (type == audioInputType ? config.inputChannels
: config.outputChannels);
for (int i = 0; i < 256; i += 2)
bits.setBit (i / 2, original[i] || original[i + 1]);
if (type == audioInputType)
{
config.useDefaultInputChannels = false;
flipBit (bits, row, setup.minNumInputChannels / 2, setup.maxNumInputChannels / 2);
}
else
{
config.useDefaultOutputChannels = false;
flipBit (bits, row, setup.minNumOutputChannels / 2, setup.maxNumOutputChannels / 2);
}
for (int i = 0; i < 256; ++i)
original.setBit (i, bits[i / 2]);
}
else
{
if (type == audioInputType)
{
config.useDefaultInputChannels = false;
flipBit (config.inputChannels, row, setup.minNumInputChannels, setup.maxNumInputChannels);
}
else
{
config.useDefaultOutputChannels = false;
flipBit (config.outputChannels, row, setup.minNumOutputChannels, setup.maxNumOutputChannels);
}
}
setup.manager->setAudioDeviceSetup (config, true);
}
}
static void flipBit (BigInteger& chans, int index, int minNumber, int maxNumber)
{
auto numActive = chans.countNumberOfSetBits();
if (chans[index])
{
if (numActive > minNumber)
chans.setBit (index, false);
}
else
{
if (numActive >= maxNumber)
{
auto firstActiveChan = chans.findNextSetBit (0);
chans.clearBit (index > firstActiveChan ? firstActiveChan : chans.getHighestBit());
}
chans.setBit (index, true);
}
}
int getTickX() const
{
return getRowHeight();
}
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ChannelSelectorListBox)
};
private:
std::unique_ptr<ChannelSelectorListBox> inputChanList, outputChanList;
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (AudioDeviceSettingsPanel)
};
//==============================================================================
AudioDeviceSelectorComponent::AudioDeviceSelectorComponent (AudioDeviceManager& dm,
int minInputChannelsToUse,
int maxInputChannelsToUse,
int minOutputChannelsToUse,
int maxOutputChannelsToUse,
bool showMidiInputOptions,
bool showMidiOutputSelector,
bool showChannelsAsStereoPairsToUse,
bool hideAdvancedOptionsWithButtonToUse)
: deviceManager (dm),
itemHeight (24),
minOutputChannels (minOutputChannelsToUse),
maxOutputChannels (maxOutputChannelsToUse),
minInputChannels (minInputChannelsToUse),
maxInputChannels (maxInputChannelsToUse),
showChannelsAsStereoPairs (showChannelsAsStereoPairsToUse),
hideAdvancedOptionsWithButton (hideAdvancedOptionsWithButtonToUse)
{
jassert (minOutputChannels >= 0 && minOutputChannels <= maxOutputChannels);
jassert (minInputChannels >= 0 && minInputChannels <= maxInputChannels);
const OwnedArray<AudioIODeviceType>& types = deviceManager.getAvailableDeviceTypes();
if (types.size() > 1)
{
deviceTypeDropDown.reset (new ComboBox());
for (int i = 0; i < types.size(); ++i)
deviceTypeDropDown->addItem (types.getUnchecked(i)->getTypeName(), i + 1);
addAndMakeVisible (deviceTypeDropDown.get());
deviceTypeDropDown->onChange = [this] { updateDeviceType(); };
deviceTypeDropDownLabel.reset (new Label ({}, TRANS("Audio device type:")));
deviceTypeDropDownLabel->setJustificationType (Justification::centredRight);
deviceTypeDropDownLabel->attachToComponent (deviceTypeDropDown.get(), true);
}
if (showMidiInputOptions)
{
midiInputsList.reset (new MidiInputSelectorComponentListBox (deviceManager,
"(" + TRANS("No MIDI inputs available") + ")"));
addAndMakeVisible (midiInputsList.get());
midiInputsLabel.reset (new Label ({}, TRANS ("Active MIDI inputs:")));
midiInputsLabel->setJustificationType (Justification::topRight);
midiInputsLabel->attachToComponent (midiInputsList.get(), true);
if (BluetoothMidiDevicePairingDialogue::isAvailable())
{
bluetoothButton.reset (new TextButton (TRANS("Bluetooth MIDI"), TRANS("Scan for bluetooth MIDI devices")));
addAndMakeVisible (bluetoothButton.get());
bluetoothButton->onClick = [this] { handleBluetoothButton(); };
}
}
else
{
midiInputsList.reset();
midiInputsLabel.reset();
bluetoothButton.reset();
}
if (showMidiOutputSelector)
{
midiOutputSelector.reset (new ComboBox());
addAndMakeVisible (midiOutputSelector.get());
midiOutputSelector->onChange = [this] { updateMidiOutput(); };
midiOutputLabel.reset (new Label ("lm", TRANS("MIDI Output:")));
midiOutputLabel->attachToComponent (midiOutputSelector.get(), true);
}
else
{
midiOutputSelector.reset();
midiOutputLabel.reset();
}
deviceManager.addChangeListener (this);
updateAllControls();
startTimer (1000);
}
AudioDeviceSelectorComponent::~AudioDeviceSelectorComponent()
{
deviceManager.removeChangeListener (this);
}
void AudioDeviceSelectorComponent::setItemHeight (int newItemHeight)
{
itemHeight = newItemHeight;
resized();
}
void AudioDeviceSelectorComponent::resized()
{
Rectangle<int> r (proportionOfWidth (0.35f), 15, proportionOfWidth (0.6f), 3000);
auto space = itemHeight / 4;
if (deviceTypeDropDown != nullptr)
{
deviceTypeDropDown->setBounds (r.removeFromTop (itemHeight));
r.removeFromTop (space * 3);
}
if (audioDeviceSettingsComp != nullptr)
{
audioDeviceSettingsComp->resized();
audioDeviceSettingsComp->setBounds (r.removeFromTop (audioDeviceSettingsComp->getHeight())
.withX (0).withWidth (getWidth()));
r.removeFromTop (space);
}
if (midiInputsList != nullptr)
{
midiInputsList->setRowHeight (jmin (22, itemHeight));
midiInputsList->setBounds (r.removeFromTop (midiInputsList->getBestHeight (jmin (itemHeight * 8,
getHeight() - r.getY() - space - itemHeight))));
r.removeFromTop (space);
}
if (bluetoothButton != nullptr)
{
bluetoothButton->setBounds (r.removeFromTop (24));
r.removeFromTop (space);
}
if (midiOutputSelector != nullptr)
midiOutputSelector->setBounds (r.removeFromTop (itemHeight));
r.removeFromTop (itemHeight);
setSize (getWidth(), r.getY());
}
void AudioDeviceSelectorComponent::timerCallback()
{
// TODO
// unfortunately, the AudioDeviceManager only gives us changeListenerCallbacks
// if an audio device has changed, but not if a MIDI device has changed.
// This needs to be implemented properly. Until then, we use a workaround
// where we update the whole component once per second on a timer callback.
updateAllControls();
}
void AudioDeviceSelectorComponent::updateDeviceType()
{
if (auto* type = deviceManager.getAvailableDeviceTypes() [deviceTypeDropDown->getSelectedId() - 1])
{
audioDeviceSettingsComp.reset();
deviceManager.setCurrentAudioDeviceType (type->getTypeName(), true);
updateAllControls(); // needed in case the type hasn't actually changed
}
}
void AudioDeviceSelectorComponent::updateMidiOutput()
{
auto midiDeviceName = midiOutputSelector->getText();
if (midiDeviceName == getNoDeviceString())
midiDeviceName = {};
deviceManager.setDefaultMidiOutput (midiDeviceName);
}
void AudioDeviceSelectorComponent::changeListenerCallback (ChangeBroadcaster*)
{
updateAllControls();
}
void AudioDeviceSelectorComponent::updateAllControls()
{
if (deviceTypeDropDown != nullptr)
deviceTypeDropDown->setText (deviceManager.getCurrentAudioDeviceType(), dontSendNotification);
if (audioDeviceSettingsComp == nullptr
|| audioDeviceSettingsCompType != deviceManager.getCurrentAudioDeviceType())
{
audioDeviceSettingsCompType = deviceManager.getCurrentAudioDeviceType();
audioDeviceSettingsComp.reset();
if (auto* type = deviceManager.getAvailableDeviceTypes() [deviceTypeDropDown == nullptr
? 0 : deviceTypeDropDown->getSelectedId() - 1])
{
AudioDeviceSetupDetails details;
details.manager = &deviceManager;
details.minNumInputChannels = minInputChannels;
details.maxNumInputChannels = maxInputChannels;
details.minNumOutputChannels = minOutputChannels;
details.maxNumOutputChannels = maxOutputChannels;
details.useStereoPairs = showChannelsAsStereoPairs;
auto* sp = new AudioDeviceSettingsPanel (*type, details, hideAdvancedOptionsWithButton);
audioDeviceSettingsComp.reset (sp);
addAndMakeVisible (sp);
sp->updateAllControls();
}
}
if (midiInputsList != nullptr)
{
midiInputsList->updateDevices();
midiInputsList->updateContent();
midiInputsList->repaint();
}
if (midiOutputSelector != nullptr)
{
midiOutputSelector->clear();
auto midiOuts = MidiOutput::getDevices();
midiOutputSelector->addItem (getNoDeviceString(), -1);
midiOutputSelector->addSeparator();
for (int i = 0; i < midiOuts.size(); ++i)
midiOutputSelector->addItem (midiOuts[i], i + 1);
int current = -1;
if (deviceManager.getDefaultMidiOutput() != nullptr)
current = 1 + midiOuts.indexOf (deviceManager.getDefaultMidiOutputName());
midiOutputSelector->setSelectedId (current, dontSendNotification);
}
resized();
}
void AudioDeviceSelectorComponent::handleBluetoothButton()
{
if (! RuntimePermissions::isGranted (RuntimePermissions::bluetoothMidi))
RuntimePermissions::request (RuntimePermissions::bluetoothMidi, nullptr);
if (RuntimePermissions::isGranted (RuntimePermissions::bluetoothMidi))
BluetoothMidiDevicePairingDialogue::open();
}
ListBox* AudioDeviceSelectorComponent::getMidiInputSelectorListBox() const noexcept
{
return midiInputsList.get();
}
} // namespace juce