paulxstretch/deps/juce/examples/Audio/MidiDemo.h

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/*
==============================================================================
This file is part of the JUCE examples.
Copyright (c) 2020 - Raw Material Software Limited
The code included in this file is provided under the terms of the ISC license
http://www.isc.org/downloads/software-support-policy/isc-license. Permission
To use, copy, modify, and/or distribute this software for any purpose with or
without fee is hereby granted provided that the above copyright notice and
this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES,
WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR
PURPOSE, ARE DISCLAIMED.
==============================================================================
*/
/*******************************************************************************
The block below describes the properties of this PIP. A PIP is a short snippet
of code that can be read by the Projucer and used to generate a JUCE project.
BEGIN_JUCE_PIP_METADATA
name: MidiDemo
version: 1.0.0
vendor: JUCE
website: http://juce.com
description: Handles incoming and outcoming midi messages.
dependencies: juce_audio_basics, juce_audio_devices, juce_audio_formats,
juce_audio_processors, juce_audio_utils, juce_core,
juce_data_structures, juce_events, juce_graphics,
juce_gui_basics, juce_gui_extra
exporters: xcode_mac, vs2019, linux_make, androidstudio, xcode_iphone
moduleFlags: JUCE_STRICT_REFCOUNTEDPOINTER=1
type: Component
mainClass: MidiDemo
useLocalCopy: 1
END_JUCE_PIP_METADATA
*******************************************************************************/
#pragma once
//==============================================================================
struct MidiDeviceListEntry : ReferenceCountedObject
{
MidiDeviceListEntry (MidiDeviceInfo info) : deviceInfo (info) {}
MidiDeviceInfo deviceInfo;
std::unique_ptr<MidiInput> inDevice;
std::unique_ptr<MidiOutput> outDevice;
using Ptr = ReferenceCountedObjectPtr<MidiDeviceListEntry>;
};
//==============================================================================
class MidiDemo : public Component,
private Timer,
private MidiKeyboardState::Listener,
private MidiInputCallback,
private AsyncUpdater
{
public:
//==============================================================================
MidiDemo()
: midiKeyboard (keyboardState, MidiKeyboardComponent::horizontalKeyboard),
midiInputSelector (new MidiDeviceListBox ("Midi Input Selector", *this, true)),
midiOutputSelector (new MidiDeviceListBox ("Midi Output Selector", *this, false))
{
addLabelAndSetStyle (midiInputLabel);
addLabelAndSetStyle (midiOutputLabel);
addLabelAndSetStyle (incomingMidiLabel);
addLabelAndSetStyle (outgoingMidiLabel);
midiKeyboard.setName ("MIDI Keyboard");
addAndMakeVisible (midiKeyboard);
midiMonitor.setMultiLine (true);
midiMonitor.setReturnKeyStartsNewLine (false);
midiMonitor.setReadOnly (true);
midiMonitor.setScrollbarsShown (true);
midiMonitor.setCaretVisible (false);
midiMonitor.setPopupMenuEnabled (false);
midiMonitor.setText ({});
addAndMakeVisible (midiMonitor);
if (! BluetoothMidiDevicePairingDialogue::isAvailable())
pairButton.setEnabled (false);
addAndMakeVisible (pairButton);
pairButton.onClick = []
{
RuntimePermissions::request (RuntimePermissions::bluetoothMidi,
[] (bool wasGranted)
{
if (wasGranted)
BluetoothMidiDevicePairingDialogue::open();
});
};
keyboardState.addListener (this);
addAndMakeVisible (midiInputSelector .get());
addAndMakeVisible (midiOutputSelector.get());
setSize (732, 520);
startTimer (500);
}
~MidiDemo() override
{
stopTimer();
midiInputs .clear();
midiOutputs.clear();
keyboardState.removeListener (this);
midiInputSelector .reset();
midiOutputSelector.reset();
}
//==============================================================================
void timerCallback() override
{
updateDeviceList (true);
updateDeviceList (false);
}
void handleNoteOn (MidiKeyboardState*, int midiChannel, int midiNoteNumber, float velocity) override
{
MidiMessage m (MidiMessage::noteOn (midiChannel, midiNoteNumber, velocity));
m.setTimeStamp (Time::getMillisecondCounterHiRes() * 0.001);
sendToOutputs (m);
}
void handleNoteOff (MidiKeyboardState*, int midiChannel, int midiNoteNumber, float velocity) override
{
MidiMessage m (MidiMessage::noteOff (midiChannel, midiNoteNumber, velocity));
m.setTimeStamp (Time::getMillisecondCounterHiRes() * 0.001);
sendToOutputs (m);
}
void paint (Graphics&) override {}
void resized() override
{
auto margin = 10;
midiInputLabel.setBounds (margin, margin,
(getWidth() / 2) - (2 * margin), 24);
midiOutputLabel.setBounds ((getWidth() / 2) + margin, margin,
(getWidth() / 2) - (2 * margin), 24);
midiInputSelector->setBounds (margin, (2 * margin) + 24,
(getWidth() / 2) - (2 * margin),
(getHeight() / 2) - ((4 * margin) + 24 + 24));
midiOutputSelector->setBounds ((getWidth() / 2) + margin, (2 * margin) + 24,
(getWidth() / 2) - (2 * margin),
(getHeight() / 2) - ((4 * margin) + 24 + 24));
pairButton.setBounds (margin, (getHeight() / 2) - (margin + 24),
getWidth() - (2 * margin), 24);
outgoingMidiLabel.setBounds (margin, getHeight() / 2, getWidth() - (2 * margin), 24);
midiKeyboard.setBounds (margin, (getHeight() / 2) + (24 + margin), getWidth() - (2 * margin), 64);
incomingMidiLabel.setBounds (margin, (getHeight() / 2) + (24 + (2 * margin) + 64),
getWidth() - (2 * margin), 24);
auto y = (getHeight() / 2) + ((2 * 24) + (3 * margin) + 64);
midiMonitor.setBounds (margin, y,
getWidth() - (2 * margin), getHeight() - y - margin);
}
void openDevice (bool isInput, int index)
{
if (isInput)
{
jassert (midiInputs[index]->inDevice.get() == nullptr);
midiInputs[index]->inDevice = MidiInput::openDevice (midiInputs[index]->deviceInfo.identifier, this);
if (midiInputs[index]->inDevice.get() == nullptr)
{
DBG ("MidiDemo::openDevice: open input device for index = " << index << " failed!");
return;
}
midiInputs[index]->inDevice->start();
}
else
{
jassert (midiOutputs[index]->outDevice.get() == nullptr);
midiOutputs[index]->outDevice = MidiOutput::openDevice (midiOutputs[index]->deviceInfo.identifier);
if (midiOutputs[index]->outDevice.get() == nullptr)
{
DBG ("MidiDemo::openDevice: open output device for index = " << index << " failed!");
}
}
}
void closeDevice (bool isInput, int index)
{
if (isInput)
{
jassert (midiInputs[index]->inDevice.get() != nullptr);
midiInputs[index]->inDevice->stop();
midiInputs[index]->inDevice.reset();
}
else
{
jassert (midiOutputs[index]->outDevice.get() != nullptr);
midiOutputs[index]->outDevice.reset();
}
}
int getNumMidiInputs() const noexcept
{
return midiInputs.size();
}
int getNumMidiOutputs() const noexcept
{
return midiOutputs.size();
}
ReferenceCountedObjectPtr<MidiDeviceListEntry> getMidiDevice (int index, bool isInput) const noexcept
{
return isInput ? midiInputs[index] : midiOutputs[index];
}
private:
//==============================================================================
struct MidiDeviceListBox : public ListBox,
private ListBoxModel
{
MidiDeviceListBox (const String& name,
MidiDemo& contentComponent,
bool isInputDeviceList)
: ListBox (name, this),
parent (contentComponent),
isInput (isInputDeviceList)
{
setOutlineThickness (1);
setMultipleSelectionEnabled (true);
setClickingTogglesRowSelection (true);
}
//==============================================================================
int getNumRows() override
{
return isInput ? parent.getNumMidiInputs()
: parent.getNumMidiOutputs();
}
void paintListBoxItem (int rowNumber, Graphics& g,
int width, int height, bool rowIsSelected) override
{
auto textColour = getLookAndFeel().findColour (ListBox::textColourId);
if (rowIsSelected)
g.fillAll (textColour.interpolatedWith (getLookAndFeel().findColour (ListBox::backgroundColourId), 0.5));
g.setColour (textColour);
g.setFont ((float) height * 0.7f);
if (isInput)
{
if (rowNumber < parent.getNumMidiInputs())
g.drawText (parent.getMidiDevice (rowNumber, true)->deviceInfo.name,
5, 0, width, height,
Justification::centredLeft, true);
}
else
{
if (rowNumber < parent.getNumMidiOutputs())
g.drawText (parent.getMidiDevice (rowNumber, false)->deviceInfo.name,
5, 0, width, height,
Justification::centredLeft, true);
}
}
//==============================================================================
void selectedRowsChanged (int) override
{
auto newSelectedItems = getSelectedRows();
if (newSelectedItems != lastSelectedItems)
{
for (auto i = 0; i < lastSelectedItems.size(); ++i)
{
if (! newSelectedItems.contains (lastSelectedItems[i]))
parent.closeDevice (isInput, lastSelectedItems[i]);
}
for (auto i = 0; i < newSelectedItems.size(); ++i)
{
if (! lastSelectedItems.contains (newSelectedItems[i]))
parent.openDevice (isInput, newSelectedItems[i]);
}
lastSelectedItems = newSelectedItems;
}
}
//==============================================================================
void syncSelectedItemsWithDeviceList (const ReferenceCountedArray<MidiDeviceListEntry>& midiDevices)
{
SparseSet<int> selectedRows;
for (auto i = 0; i < midiDevices.size(); ++i)
if (midiDevices[i]->inDevice.get() != nullptr || midiDevices[i]->outDevice.get() != nullptr)
selectedRows.addRange (Range<int> (i, i + 1));
lastSelectedItems = selectedRows;
updateContent();
setSelectedRows (selectedRows, dontSendNotification);
}
private:
//==============================================================================
MidiDemo& parent;
bool isInput;
SparseSet<int> lastSelectedItems;
};
//==============================================================================
void handleIncomingMidiMessage (MidiInput* /*source*/, const MidiMessage& message) override
{
// This is called on the MIDI thread
const ScopedLock sl (midiMonitorLock);
incomingMessages.add (message);
triggerAsyncUpdate();
}
void handleAsyncUpdate() override
{
// This is called on the message loop
Array<MidiMessage> messages;
{
const ScopedLock sl (midiMonitorLock);
messages.swapWith (incomingMessages);
}
String messageText;
for (auto& m : messages)
messageText << m.getDescription() << "\n";
midiMonitor.insertTextAtCaret (messageText);
}
void sendToOutputs (const MidiMessage& msg)
{
for (auto midiOutput : midiOutputs)
if (midiOutput->outDevice.get() != nullptr)
midiOutput->outDevice->sendMessageNow (msg);
}
//==============================================================================
bool hasDeviceListChanged (const Array<MidiDeviceInfo>& availableDevices, bool isInputDevice)
{
ReferenceCountedArray<MidiDeviceListEntry>& midiDevices = isInputDevice ? midiInputs
: midiOutputs;
if (availableDevices.size() != midiDevices.size())
return true;
for (auto i = 0; i < availableDevices.size(); ++i)
if (availableDevices[i] != midiDevices[i]->deviceInfo)
return true;
return false;
}
ReferenceCountedObjectPtr<MidiDeviceListEntry> findDevice (MidiDeviceInfo device, bool isInputDevice) const
{
const ReferenceCountedArray<MidiDeviceListEntry>& midiDevices = isInputDevice ? midiInputs
: midiOutputs;
for (auto& d : midiDevices)
if (d->deviceInfo == device)
return d;
return nullptr;
}
void closeUnpluggedDevices (const Array<MidiDeviceInfo>& currentlyPluggedInDevices, bool isInputDevice)
{
ReferenceCountedArray<MidiDeviceListEntry>& midiDevices = isInputDevice ? midiInputs
: midiOutputs;
for (auto i = midiDevices.size(); --i >= 0;)
{
auto& d = *midiDevices[i];
if (! currentlyPluggedInDevices.contains (d.deviceInfo))
{
if (isInputDevice ? d.inDevice .get() != nullptr
: d.outDevice.get() != nullptr)
closeDevice (isInputDevice, i);
midiDevices.remove (i);
}
}
}
void updateDeviceList (bool isInputDeviceList)
{
auto availableDevices = isInputDeviceList ? MidiInput::getAvailableDevices()
: MidiOutput::getAvailableDevices();
if (hasDeviceListChanged (availableDevices, isInputDeviceList))
{
ReferenceCountedArray<MidiDeviceListEntry>& midiDevices
= isInputDeviceList ? midiInputs : midiOutputs;
closeUnpluggedDevices (availableDevices, isInputDeviceList);
ReferenceCountedArray<MidiDeviceListEntry> newDeviceList;
// add all currently plugged-in devices to the device list
for (auto& newDevice : availableDevices)
{
MidiDeviceListEntry::Ptr entry = findDevice (newDevice, isInputDeviceList);
if (entry == nullptr)
entry = new MidiDeviceListEntry (newDevice);
newDeviceList.add (entry);
}
// actually update the device list
midiDevices = newDeviceList;
// update the selection status of the combo-box
if (auto* midiSelector = isInputDeviceList ? midiInputSelector.get() : midiOutputSelector.get())
midiSelector->syncSelectedItemsWithDeviceList (midiDevices);
}
}
//==============================================================================
void addLabelAndSetStyle (Label& label)
{
label.setFont (Font (15.00f, Font::plain));
label.setJustificationType (Justification::centredLeft);
label.setEditable (false, false, false);
label.setColour (TextEditor::textColourId, Colours::black);
label.setColour (TextEditor::backgroundColourId, Colour (0x00000000));
addAndMakeVisible (label);
}
//==============================================================================
Label midiInputLabel { "Midi Input Label", "MIDI Input:" };
Label midiOutputLabel { "Midi Output Label", "MIDI Output:" };
Label incomingMidiLabel { "Incoming Midi Label", "Received MIDI messages:" };
Label outgoingMidiLabel { "Outgoing Midi Label", "Play the keyboard to send MIDI messages..." };
MidiKeyboardState keyboardState;
MidiKeyboardComponent midiKeyboard;
TextEditor midiMonitor { "MIDI Monitor" };
TextButton pairButton { "MIDI Bluetooth devices..." };
std::unique_ptr<MidiDeviceListBox> midiInputSelector, midiOutputSelector;
ReferenceCountedArray<MidiDeviceListEntry> midiInputs, midiOutputs;
CriticalSection midiMonitorLock;
Array<MidiMessage> incomingMessages;
//==============================================================================
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (MidiDemo)
};