public async Task CreateAudioGraph()
{
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.LowestLatency;
settings.PrimaryRenderDevice = outputDevices[0];
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
if (result.Status != AudioGraphCreationStatus.Success)
{
MessageDialog md = new MessageDialog("Error in creating Audio Graph", "OOPS!!");
await md.ShowAsync();
return;
}
graph = result.Graph;
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await graph.CreateDeviceInputNodeAsync(MediaCategory.Other);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
MessageDialog md = new MessageDialog("Error in creating InputDeviceNode", "OOPS!!");
await md.ShowAsync();
return;
}
deviceInputNode = deviceInputNodeResult.DeviceInputNode;
}
private async Task CreateAudioGraph()
{
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.LowestLatency;
settings.PrimaryRenderDevice = outputDevices[outputDevicesListBox.SelectedIndex - 1];
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
if (result.Status != AudioGraphCreationStatus.Success)
{
// Cannot create graph
rootPage.NotifyUser(String.Format("AudioGraph Creation Error because {0}", result.Status.ToString()), NotifyType.ErrorMessage);
return;
}
graph = result.Graph;
rootPage.NotifyUser("Graph successfully created!", NotifyType.StatusMessage);
// Create a device output node
CreateAudioDeviceOutputNodeResult deviceOutputNodeResult = await graph.CreateDeviceOutputNodeAsync();
if (deviceOutputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device output node
rootPage.NotifyUser(String.Format("Audio Device Output unavailable because {0}", deviceOutputNodeResult.Status.ToString()), NotifyType.ErrorMessage);
outputDeviceContainer.Background = new SolidColorBrush(Colors.Red);
return;
}
deviceOutputNode = deviceOutputNodeResult.DeviceOutputNode;
rootPage.NotifyUser("Device Output connection successfully created", NotifyType.StatusMessage);
outputDeviceContainer.Background = new SolidColorBrush(Colors.Green);
// Create a device input node using the default audio input device
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await graph.CreateDeviceInputNodeAsync(MediaCategory.Other);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device input node
rootPage.NotifyUser(String.Format("Audio Device Input unavailable because {0}", deviceInputNodeResult.Status.ToString()), NotifyType.ErrorMessage);
inputDeviceContainer.Background = new SolidColorBrush(Colors.Red);
return;
}
deviceInputNode = deviceInputNodeResult.DeviceInputNode;
rootPage.NotifyUser("Device Input connection successfully created", NotifyType.StatusMessage);
inputDeviceContainer.Background = new SolidColorBrush(Colors.Green);
// Since graph is successfully created, enable the button to select a file output
fileButton.IsEnabled = true;
// Disable the graph button to prevent accidental click
createGraphButton.IsEnabled = false;
// Because we are using lowest latency setting, we need to handle device disconnection errors
graph.UnrecoverableErrorOccurred += Graph_UnrecoverableErrorOccurred;
}
private async Task InitializeAudioAsync()
{
// Create an AudioGraph with default settings
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.EncodingProperties = AudioEncodingProperties.CreatePcm(22050, 1, 16);
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
if (result.Status != AudioGraphCreationStatus.Success)
{
return;
}
_graph = result.Graph;
// Create a device output node
CreateAudioDeviceOutputNodeResult deviceOutputNodeResult = await _graph.CreateDeviceOutputNodeAsync();
if (deviceOutputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
return;
}
_deviceOutputNode = deviceOutputNodeResult.DeviceOutputNode;
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await _graph.CreateDeviceInputNodeAsync(MediaCategory.Other);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
return;
}
_deviceInputNode = deviceInputNodeResult.DeviceInputNode;
// Create the FrameInputNode at the same format as the graph, except explicitly set mono.
AudioEncodingProperties nodeEncodingProperties = _graph.EncodingProperties;
nodeEncodingProperties.ChannelCount = 1;
_frameInputNode = _graph.CreateFrameInputNode(nodeEncodingProperties);
_frameInputNode.AddOutgoingConnection(_deviceOutputNode);
_frameOutputNode = _graph.CreateFrameOutputNode(nodeEncodingProperties);
_deviceInputNode.AddOutgoingConnection(_frameOutputNode);
// Initialize the Frame Input Node in the stopped state
_frameInputNode.Stop();
// Hook up an event handler so we can start generating samples when needed
// This event is triggered when the node is required to provide data
_frameInputNode.QuantumStarted += node_QuantumStarted;
_graph.QuantumProcessed += GraphOnQuantumProcessed;
// Start the graph since we will only start/stop the frame input node
_graph.Start();
}
public static async Task AudioDevices()
{
if (beep == null)
{
beep = await StorageFile.GetFileFromApplicationUriAsync(new Uri("ms-appx:///Assets/Audio/beep.wav"));
}
DeviceInformationCollection devices = await Windows.Devices.Enumeration.DeviceInformation.FindAllAsync(Windows.Media.Devices.MediaDevice.GetAudioRenderSelector());
DeviceInformation selectedDevice = null;
// Sometimes usb mics are confused as speakers.. so add check to make Speakers (Raspberry Pi 2 audio) the default <-- Confirmed works on rpi3
//for (int i = 0; i <= devices.Count; i++)
//{
// if (i != devices.Count)
// {
// if (DeviceTypeInformation.IsRaspberryPi)
// {
// if (devices[i].Name == "Speakers (Raspberry Pi 2 audio)")
// {
// selectedDevice = devices[i];
// break;
// }
// }
// else
// {
// selectedDevice = devices[i];
// break;
// }
// }
//}
settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.PrimaryRenderDevice = selectedDevice;
CreateAudioGraphResult resultg = await AudioGraph.CreateAsync(settings);
audioflow = resultg.Graph;
CreateAudioDeviceOutputNodeResult deviceOutputNodeResult = await audioflow.CreateDeviceOutputNodeAsync();
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await audioflow.CreateDeviceInputNodeAsync(MediaCategory.Media);
deviceOuput = deviceOutputNodeResult.DeviceOutputNode;
try
{
_mediaCapture = new MediaCapture();
await _mediaCapture.InitializeAsync();
_mediaCapture.Failed += _mediaCapture_Failed;
_mediaCapture.AudioDeviceController.VolumePercent = 0.75f;
}
catch
{
Debug.WriteLine("Failed to setup microphone is one connected?");
}
}
private async Task CreateAudioGraph()
{
if (graph != null)
{
graph.Dispose();
}
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.SystemDefault;
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
if (result.Status != AudioGraphCreationStatus.Success)
{
// Cannot create graph
return;
}
graph = result.Graph;
// Create a device input node using the default audio input device (manifest microphone!!!!)
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await graph.CreateDeviceInputNodeAsync(MediaCategory.Other);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device input node
return;
}
deviceInputNode = deviceInputNodeResult.DeviceInputNode;
//creating file
StorageFolder storageFolder = Windows.Storage.ApplicationData.Current.LocalFolder;
StorageFile file = await storageFolder.CreateFileAsync("sample.wav", Windows.Storage.CreationCollisionOption.ReplaceExisting);
path = file.Path.ToString();
MediaEncodingProfile fileProfile = MediaEncodingProfile.CreateWav(AudioEncodingQuality.Medium);
// Operate node at the graph format, but save file at the specified format
CreateAudioFileOutputNodeResult fileOutputNodeResult = await graph.CreateFileOutputNodeAsync(file, fileProfile);
if (fileOutputNodeResult.Status != AudioFileNodeCreationStatus.Success)
{
// FileOutputNode creation failed
return;
}
fileOutputNode = fileOutputNodeResult.FileOutputNode;
// Connect the input node to both output nodes
deviceInputNode.AddOutgoingConnection(fileOutputNode);
}
public async Task InitializeAsync()
{
DebugUtil.CheckAppThread();
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
// settings.DesiredRenderDeviceAudioProcessing = AudioProcessing.Raw;
settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.LowestLatency;
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
DebugUtil.Assert(result.Status == AudioGraphCreationStatus.Success, "Failed to create audio graph");
_audioGraph = result.Graph;
int latencyInSamples = _audioGraph.LatencyInSamples;
// Create a device output node
CreateAudioDeviceOutputNodeResult deviceOutputNodeResult = _audioGraph.CreateDeviceOutputNodeAsync().GetResults();
DebugUtil.Assert(deviceOutputNodeResult.Status == AudioDeviceNodeCreationStatus.Success,
$"Audio Device Output unavailable because {deviceOutputNodeResult.Status}");
_deviceOutputNode = deviceOutputNodeResult.DeviceOutputNode;
_inputCaptureNode = _audioGraph.CreateFrameOutputNode(); // Create a device input node using the default audio input device
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await _audioGraph.CreateDeviceInputNodeAsync(MediaCategory.Other);
DebugUtil.Assert(deviceInputNodeResult.Status == AudioDeviceNodeCreationStatus.Success,
$"Audio Device Input unavailable because {deviceInputNodeResult.Status}");
_deviceInputNode = deviceInputNodeResult.DeviceInputNode;
_deviceInputNode.AddOutgoingConnection(_inputCaptureNode);
_deviceInputNode.AddOutgoingConnection(_deviceOutputNode);
/*
* echoEffect = new EchoEffectDefinition(_graph);
* echoEffect.WetDryMix = 0.7f;
* echoEffect.Feedback = 0.5f;
* echoEffect.Delay = 500.0f;
* submixNode.EffectDefinitions.Add(echoEffect);
*
* // Disable the effect in the beginning. Enable in response to user action (UI toggle switch)
* submixNode.DisableEffectsByDefinition(echoEffect);
*/
// All nodes can have an OutgoingGain property
// Setting the gain on the Submix node attenuates the output of the node
//_submixNode.OutgoingGain = 0.5;
}
public static async Task CreateDeviceInputNode()
{
Console.WriteLine("Creating AudioGraphs");
// Create an AudioGraph with default settings
AudioGraphSettings graphsettings = new AudioGraphSettings(AudioRenderCategory.GameChat);
graphsettings.EncodingProperties = new AudioEncodingProperties();
graphsettings.EncodingProperties.Subtype = "Float";
graphsettings.EncodingProperties.SampleRate = 48000;
graphsettings.EncodingProperties.ChannelCount = 2;
graphsettings.EncodingProperties.BitsPerSample = 32;
graphsettings.EncodingProperties.Bitrate = 3072000;
//settings.DesiredSamplesPerQuantum = 960;
//settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.ClosestToDesired;
CreateAudioGraphResult graphresult = await AudioGraph.CreateAsync(graphsettings);
if (graphresult.Status != AudioGraphCreationStatus.Success)
{
// Cannot create graph
return;
}
ingraph = graphresult.Graph;
AudioGraphSettings nodesettings = new AudioGraphSettings(AudioRenderCategory.GameChat);
nodesettings.EncodingProperties = AudioEncodingProperties.CreatePcm(48000, 2, 16);
nodesettings.DesiredSamplesPerQuantum = 960;
nodesettings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.ClosestToDesired;
frameOutputNode = ingraph.CreateFrameOutputNode(outgraph.EncodingProperties);
quantum = 0;
ingraph.QuantumStarted += Graph_QuantumStarted;
Windows.Devices.Enumeration.DeviceInformation selectedDevice =
await Windows.Devices.Enumeration.DeviceInformation.CreateFromIdAsync(Windows.Media.Devices.MediaDevice.GetDefaultAudioCaptureId(Windows.Media.Devices.AudioDeviceRole.Default));
CreateAudioDeviceInputNodeResult result =
await ingraph.CreateDeviceInputNodeAsync(MediaCategory.Media, nodesettings.EncodingProperties, selectedDevice);
if (result.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device output node
return;
}
deviceInputNode = result.DeviceInputNode;
deviceInputNode.AddOutgoingConnection(frameOutputNode);
frameOutputNode.Start();
ingraph.Start();
}
private async Task openMicrophonePopup()
{
AudioGraphSettings settings = new AudioGraphSettings(Windows.Media.Render.AudioRenderCategory.Media);
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
AudioGraph audioGraph = result.Graph;
CreateAudioDeviceInputNodeResult resultNode = await audioGraph.CreateDeviceInputNodeAsync(Windows.Media.Capture.MediaCategory.Media);
AudioDeviceInputNode deviceInputNode = resultNode.DeviceInputNode;
deviceInputNode.Dispose();
audioGraph.Dispose();
}
//</SnippetCreateDeviceOutputNode>
private async Task EnumerateAudioCaptureDevices()
{
//<SnippetEnumerateAudioCaptureDevices>
Windows.Devices.Enumeration.DeviceInformationCollection devices =
await Windows.Devices.Enumeration.DeviceInformation.FindAllAsync(Windows.Media.Devices.MediaDevice.GetAudioCaptureSelector());
// Show UI to allow the user to select a device
Windows.Devices.Enumeration.DeviceInformation selectedDevice = ShowMyDeviceSelectionUI(devices);
CreateAudioDeviceInputNodeResult result =
await audioGraph.CreateDeviceInputNodeAsync(Windows.Media.Capture.MediaCategory.Media, audioGraph.EncodingProperties, selectedDevice);
//</SnippetEnumerateAudioCaptureDevices>
}
//</SnippetCreateFileOutputNode>
//<SnippetCreateDeviceInputNode>
private async Task CreateDeviceInputNode()
{
// Create a device output node
CreateAudioDeviceInputNodeResult result = await audioGraph.CreateDeviceInputNodeAsync(Windows.Media.Capture.MediaCategory.Media);
if (result.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device output node
ShowErrorMessage(result.Status.ToString());
return;
}
deviceInputNode = result.DeviceInputNode;
}
private async Task CreateAudioGraph()
{
// Create an AudioGraph with default settings
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.LowestLatency;
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
if (result.Status != AudioGraphCreationStatus.Success)
{
// Cannot create graph
_rootPage.NotifyUser(String.Format("AudioGraph Creation Error because {0}", result.Status.ToString()), NotifyType.ErrorMessage);
return;
}
_graph = result.Graph;
// Create a device output node
CreateAudioDeviceOutputNodeResult deviceOutputResult = await _graph.CreateDeviceOutputNodeAsync();
if (deviceOutputResult.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device output
_rootPage.NotifyUser(String.Format("Audio Device Output unavailable because {0}", deviceOutputResult.Status.ToString()), NotifyType.ErrorMessage);
speakerContainer.Background = new SolidColorBrush(Colors.Red);
return;
}
_deviceOutputNode = deviceOutputResult.DeviceOutputNode;
_rootPage.NotifyUser("Device Output Node successfully created", NotifyType.StatusMessage);
speakerContainer.Background = new SolidColorBrush(Colors.Green);
// Create a device input node using the default audio input device
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await _graph.CreateDeviceInputNodeAsync(MediaCategory.Media);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device input node
_rootPage.NotifyUser(String.Format("Audio Device Input unavailable because {0}", deviceInputNodeResult.Status.ToString()), NotifyType.ErrorMessage);
return;
}
_deviceInputNode = deviceInputNodeResult.DeviceInputNode;
var frameOutputNode = _graph.CreateFrameOutputNode();
_graph.QuantumProcessed += AudioGraph_QuantumProcessed;
_deviceInputNode.AddOutgoingConnection(frameOutputNode);
}
private async Task StartAudioAsync()
{
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.LowestLatency;
try
{
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
if (result.Status != AudioGraphCreationStatus.Success)
{
return;
}
_audioGraph = result.Graph;
// Create a device input node
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await _audioGraph.CreateDeviceInputNodeAsync(MediaCategory.Media, _audioGraph.EncodingProperties, _audioInputSelected);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
return;
}
// Create a device output node
CreateAudioDeviceOutputNodeResult deviceOutputNodeResult = await _audioGraph.CreateDeviceOutputNodeAsync();
if (deviceOutputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
return;
}
_deviceInputNode = deviceInputNodeResult.DeviceInputNode;
_deviceOutputNode = deviceOutputNodeResult.DeviceOutputNode;
_deviceInputNode.AddOutgoingConnection(_deviceOutputNode);
_audioGraph.Start();
}
catch (Exception ex)
{
Debug.WriteLine($"AudioGraph initialization failed. {ex?.Message}");
}
}
private async void StartButton_Click(object sender, RoutedEventArgs e)
{
DeviceInformation SelectedDevice = DevicesBox.SelectedItem as DeviceInformation;
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media)
{
QuantumSizeSelectionMode = QuantumSizeSelectionMode.LowestLatency
};
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
graph = result.Graph;
// Create a device output node
CreateAudioDeviceOutputNodeResult deviceOutputNodeResult = await graph.CreateDeviceOutputNodeAsync();
AudioDeviceOutputNode deviceOutputNode = deviceOutputNodeResult.DeviceOutputNode;
// Create a device input node using the default audio input device
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await graph.CreateDeviceInputNodeAsync(MediaCategory.Other, graph.EncodingProperties, SelectedDevice);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device input node
System.Diagnostics.Debug.WriteLine(String.Format("Audio Device Input unavailable because {0}", deviceInputNodeResult.Status.ToString()));
return;
}
AudioDeviceInputNode deviceInputNode = deviceInputNodeResult.DeviceInputNode;
frameOutputNode = graph.CreateFrameOutputNode();
deviceInputNode.AddOutgoingConnection(frameOutputNode);
AudioFrameInputNode frameInputNode = graph.CreateFrameInputNode();
frameInputNode.AddOutgoingConnection(deviceOutputNode);
// Attach to QuantumStarted event in order to receive synchronous updates from audio graph (to capture incoming audio).
graph.QuantumStarted += GraphOnQuantumProcessed;
graph.Start();
}
private async void CreateAudioGraphAsync()
{
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media)
{
//settings.DesiredSamplesPerQuantum = fftLength;
DesiredRenderDeviceAudioProcessing = AudioProcessing.Default,
QuantumSizeSelectionMode = QuantumSizeSelectionMode.ClosestToDesired
};
CreateAudioGraphResult graphResult = await AudioGraph.CreateAsync(settings);
if (graphResult.Status != AudioGraphCreationStatus.Success)
{
throw new InvalidOperationException($"Graph creation failed {graphResult.Status}");
}
_graph = graphResult.Graph;
//CreateAudioDeviceInputNodeResult inputNodeResult = await _graph.CreateDeviceInputNodeAsync(MediaCategory.Media);
CreateAudioDeviceInputNodeResult inputNodeResult = await _graph.CreateDeviceInputNodeAsync(MediaCategory.Other);
if (inputNodeResult.Status == AudioDeviceNodeCreationStatus.Success)
{
_inputNode = inputNodeResult.DeviceInputNode;
_frameOutputNode = _graph.CreateFrameOutputNode();
_inputNode.AddOutgoingConnection(_frameOutputNode);
_frameOutputNode.Start();
_graph.QuantumProcessed += AudioGraph_QuantumProcessed;
// Because we are using lowest latency setting, we need to handle device disconnection errors
_graph.UnrecoverableErrorOccurred += Graph_UnrecoverableErrorOccurred;
_graph.Start();
}
else
{
MessageDialog md = new MessageDialog("Cannot access microphone");
await md.ShowAsync();
}
}
/// <summary>
/// Tyrs to creates the frame output node and trys to set the outgoing connection to it. Also calculates audioFrameUpdateMinimum.
/// </summary>
/// <returns>Whether or not the attempt was successful</returns>
private static async Task <bool> CreateNodes()
{
try
{
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await graph.CreateDeviceInputNodeAsync(MediaCategory.Other);
deviceInputNode = deviceInputNodeResult.DeviceInputNode;
frameOutputNode = graph.CreateFrameOutputNode(graph.EncodingProperties);
graph.QuantumStarted += Graph_QuantumStarted;
audioFrameUpdateMinimum = Convert.ToInt32(samplesPerQuantumLimit / graph.SamplesPerQuantum);
deviceInputNode.AddOutgoingConnection(frameOutputNode);
return(true);
}
catch (Exception)
{
return(false);
}
}
//
//
//
public async Task InitializeAsync()
{
audGraphResult = await AudioGraph.CreateAsync(audGraphSettings);
//
audGraph = audGraphResult.Graph;
//
//
//
deviceOutputNodeResult = await audGraph.CreateDeviceOutputNodeAsync();
//
deviceOutputNode = deviceOutputNodeResult.DeviceOutputNode;
//
//
//
//deviceInputNodeResult = await audGraph.CreateDeviceInputNodeAsync(MediaCategory.Other);
// deviceInputNodeResult = await audGraph.CreateDeviceInputNodeAsync(MediaCategory.Other, audGraph.EncodingProperties);
deviceInputNodeResult = await audGraph.CreateDeviceInputNodeAsync(MediaCategory.Other, audGraph.EncodingProperties, inputDevice);
//
deviceInputNode = deviceInputNodeResult.DeviceInputNode;
//
//
//
audioDeviceOutputSubmixNode = audGraph.CreateSubmixNode();
//
//
//
deviceInputNode.AddOutgoingConnection(audioDeviceOutputSubmixNode);
//
audioDeviceOutputSubmixNode.AddOutgoingConnection(deviceOutputNode);
//
//
//
CreateEchoEffect();
CreateReverbEffect();
CreateLimiterEffect();
CreateEqEffect();
}
private async void Init()
{
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.LowestLatency;
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
if (result.Status != AudioGraphCreationStatus.Success)
{
mainPage.MessageBox("Could not create input device for Mic To MIDI!");
return;
}
audioGraph = result.Graph;
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await audioGraph.CreateDeviceInputNodeAsync(MediaCategory.Other);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
mainPage.MessageBox(String.Format("Audio Device Input unavailable because {0}", deviceInputNodeResult.Status.ToString()));
return;
}
deviceInputNode = deviceInputNodeResult.DeviceInputNode;
frameOutputNode = audioGraph.CreateFrameOutputNode();
deviceInputNode.AddOutgoingConnection(frameOutputNode);
//audioGraph.QuantumStarted += AudioGraph_QuantumStarted;
audioGraph.Start();
deviceInputNode.Start();
frameOutputNode.Start();
timer = new DispatcherTimer();
timer.Interval = new TimeSpan(0, 0, 0, 0, 1); // 1 ms
timer.Tick += Timer_Tick;
timer.Start();
periodLengthUK101 = 0;
}
private void OnCreateInputCompleted(IAsyncOperation <CreateAudioDeviceInputNodeResult> asyncInfo, AsyncStatus asyncStatus)
{
if (asyncStatus == AsyncStatus.Completed)
{
CreateAudioDeviceInputNodeResult result = asyncInfo.GetResults();
if (result.Status == AudioDeviceNodeCreationStatus.Success)
{
this.m_AudioDevideInputNode = result.DeviceInputNode;
this.m_AudioFrameOutputNode = this.m_AudioGraph.CreateFrameOutputNode();
this.m_AudioDevideInputNode.AddOutgoingConnection(this.m_AudioFrameOutputNode);
this.m_AudioGraph.QuantumStarted += M_AudioGraph_QuantumStarted;
//this.m_AudioGraph.QuantumProcessed += M_AudioGraph_QuantumProcessed;
this.m_AudioGraph.Start();
}
else
{
ShowMessage($"Failed to create audio device input node: {result.Status}");
}
}
else
{
ShowMessage($"Failed to create audio device input node: {asyncStatus}");
}
}
/// <summary>
/// Create input audio graph
/// </summary>
/// <param name="deviceId">Override for default input device id</param>
public static async Task <bool> CreateInputDeviceNode(string deviceId = null)
{
// If not in use, redo dispose
if (ingraph != null && deviceId != InputDeviceID)
{
HeavyDisposeInGraph();
}
// Increment use counter
else
{
inGraphCount++;
}
Console.WriteLine("Creating AudioGraphs");
// Create an AudioGraph with default settings
AudioGraphSettings graphsettings = new AudioGraphSettings(AudioRenderCategory.Media);
graphsettings.EncodingProperties = new AudioEncodingProperties();
graphsettings.EncodingProperties.Subtype = "Float";
graphsettings.EncodingProperties.SampleRate = 48000;
graphsettings.EncodingProperties.ChannelCount = 2;
graphsettings.EncodingProperties.BitsPerSample = 32;
graphsettings.EncodingProperties.Bitrate = 3072000;
CreateAudioGraphResult graphresult = await AudioGraph.CreateAsync(graphsettings);
if (graphresult.Status != AudioGraphCreationStatus.Success)
{
// Cannot create graph
inGraphCount--;
LocalState.VoiceState.SelfMute = true;
VoiceManager.lockMute = true;
return(false);
}
// "Save" graph
ingraph = graphresult.Graph;
// Create frameOutputNode
AudioGraphSettings nodesettings = new AudioGraphSettings(AudioRenderCategory.GameChat);
nodesettings.EncodingProperties = AudioEncodingProperties.CreatePcm(48000, 2, 32);
nodesettings.DesiredSamplesPerQuantum = 960;
nodesettings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.ClosestToDesired;
frameOutputNode = ingraph.CreateFrameOutputNode(ingraph.EncodingProperties);
quantum = 0;
ingraph.QuantumStarted += Graph_QuantumStarted;
// Determine selected device
DeviceInformation selectedDevice;
if (deviceId == "Default" || deviceId == null)
{
string device = Windows.Media.Devices.MediaDevice.GetDefaultAudioCaptureId(Windows.Media.Devices.AudioDeviceRole.Default);
if (!string.IsNullOrEmpty(device))
{
selectedDevice = await DeviceInformation.CreateFromIdAsync(device);
Windows.Media.Devices.MediaDevice.DefaultAudioCaptureDeviceChanged += MediaDevice_DefaultAudioCaptureDeviceChanged;
}
else
{
inGraphCount--;
LocalState.VoiceState.SelfMute = true;
VoiceManager.lockMute = true;
return(false);
}
}
else
{
try
{
selectedDevice = await DeviceInformation.CreateFromIdAsync(deviceId);
}
catch
{
selectedDevice = await DeviceInformation.CreateFromIdAsync(Windows.Media.Devices.MediaDevice.GetDefaultAudioCaptureId(Windows.Media.Devices.AudioDeviceRole.Default));
deviceId = "Default";
}
}
CreateAudioDeviceInputNodeResult result =
await ingraph.CreateDeviceInputNodeAsync(MediaCategory.Media, nodesettings.EncodingProperties, selectedDevice);
if (result.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device output node
inGraphCount--;
LocalState.VoiceState.SelfMute = true;
VoiceManager.lockMute = true;
return(false);
}
// Attach input device
deviceInputNode = result.DeviceInputNode;
deviceInputNode.AddOutgoingConnection(frameOutputNode);
InputDeviceID = deviceId;
// Begin playing
frameOutputNode.Start();
ingraph.Start();
return(true);
}
protected override async void OnNavigatedTo(NavigationEventArgs e)
{
var audioInputDevices = await DeviceInformation.FindAllAsync(DeviceClass.AudioCapture);
foreach (var device in audioInputDevices)
{
if (device.Name.ToLower().Contains("usb"))
{
audioInput = device;
break;
}
}
if (audioInput == null)
{
Debug.WriteLine("Could not find USB audio card");
return;
}
var audioOutputDevices = await DeviceInformation.FindAllAsync(DeviceClass.AudioRender);
foreach (var device in audioOutputDevices)
{
if (device.Name.ToLower().Contains("usb"))
{
audioOutput = device;
}
else
{
raspiAudioOutput = device;
}
}
if (audioOutput == null)
{
Debug.WriteLine("Could not find USB audio card");
return;
}
// Set up LED strips
await leftStrip.Begin();
await rightStrip.Begin();
//await AudioTest();
AudioGraphSettings audioGraphSettings = new AudioGraphSettings(AudioRenderCategory.Media);
audioGraphSettings.DesiredSamplesPerQuantum = 440;
audioGraphSettings.DesiredRenderDeviceAudioProcessing = AudioProcessing.Default;
audioGraphSettings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.ClosestToDesired;
audioGraphSettings.PrimaryRenderDevice = raspiAudioOutput;
CreateAudioGraphResult audioGraphResult = await AudioGraph.CreateAsync(audioGraphSettings);
if (audioGraphResult.Status != AudioGraphCreationStatus.Success)
{
Debug.WriteLine("AudioGraph creation failed! " + audioGraphResult.Status);
return;
}
audioGraph = audioGraphResult.Graph;
//Debug.WriteLine(audioGraph.SamplesPerQuantum);
CreateAudioDeviceInputNodeResult inputNodeResult = await audioGraph.CreateDeviceInputNodeAsync(MediaCategory.Media, audioGraph.EncodingProperties, audioInput);
if (inputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
Debug.WriteLine("AudioDeviceInputNode creation failed! " + inputNodeResult.Status);
return;
}
AudioDeviceInputNode inputNode = inputNodeResult.DeviceInputNode;
CreateAudioDeviceOutputNodeResult outputNodeResult = await audioGraph.CreateDeviceOutputNodeAsync();
if (outputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
Debug.WriteLine("AudioDeviceOutputNode creation failed!" + outputNodeResult.Status);
}
AudioDeviceOutputNode outputNode = outputNodeResult.DeviceOutputNode;
frameOutputNode = audioGraph.CreateFrameOutputNode();
inputNode.AddOutgoingConnection(frameOutputNode);
inputNode.AddOutgoingConnection(outputNode);
cube.SetSpeedStripLedColors(LedColorLists.rainbowColors);
audioGraph.QuantumProcessed += AudioGraph_QuantumProcessed;
audioGraph.UnrecoverableErrorOccurred += AudioGraph_UnrecoverableErrorOccurred;
audioGraph.Start();
outputNode.Start();
inputNode.Start();
frameOutputNode.Start();
cube.Reset();
cube.Update();
//await MathFunc();
//cube.ApplyColorFunction((x, y, z) =>
//{
// Color c = Color.FromArgb(255,
// (byte)((x / 14.0) * 255.0),
// (byte)((y / 14.0) * 255.0),
// (byte)((z / 14.0) * 255.0));
// return c;
//});
//cube.SetLedColors();
//cube.Update();
//cube.bottomFrontEdge.SetColor(Colors.Red);
//cube.bottomRightEdge.SetColor(Colors.OrangeRed);
//cube.bottomBackEdge.SetColor(Colors.Yellow);
//cube.bottomLeftEdge.SetColor(Colors.Green);
//cube.frontLeftEdge.SetColor(Colors.Blue);
//cube.frontTopEdge.SetColor(Colors.Purple);
//cube.rightLeftEdge.Brightness = 10;
//cube.rightLeftEdge.SetColor(Colors.Red);
//cube.rightTopEdge.Brightness = 10;
//cube.rightTopEdge.SetColor(Colors.OrangeRed);
//cube.backLeftEdge.Brightness = 10;
//cube.backLeftEdge.SetColor(Colors.Yellow);
//cube.backTopEdge.Brightness = 10;
//cube.backTopEdge.SetColor(Colors.Green);
//cube.leftLeftEdge.Brightness = 10;
//cube.leftLeftEdge.SetColor(Colors.Blue);
//cube.leftTopEdge.Brightness = 10;
//cube.leftTopEdge.SetColor(Colors.Purple);
//cube.Update();
//await RainbowTest();
//cube.Brightness = 30;
//await FlashTest();
//SetAll();
//await FadeTest();
//cube.Reset();
//cube.Update();
//await cube.rightLeftEdge.DoLine();
//ZackTest();
}
public async Task InitializeUWPAudio()
{
AudioGraphSettings settings = new AudioGraphSettings(AudioRenderCategory.Media);
settings.QuantumSizeSelectionMode = QuantumSizeSelectionMode.LowestLatency;
outputDevices = await DeviceInformation.FindAllAsync(MediaDevice.GetAudioRenderSelector());
foreach (DeviceInformation dev in outputDevices)
{
if (dev.Name.Contains(OMENHeadset))
{
settings.PrimaryRenderDevice = dev;
}
}
CreateAudioGraphResult result = await AudioGraph.CreateAsync(settings);
if (result.Status != AudioGraphCreationStatus.Success)
{
// Cannot create graph
return;
}
uwpAudioGraph = result.Graph;
// Create a device output node
CreateAudioDeviceOutputNodeResult deviceOutputNodeResult = await uwpAudioGraph.CreateDeviceOutputNodeAsync();
if (deviceOutputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device output node
return;
}
deviceOutputNode = deviceOutputNodeResult.DeviceOutputNode;
// Create a device input node using the default audio input device
CreateAudioDeviceInputNodeResult deviceInputNodeResult = await uwpAudioGraph.CreateDeviceInputNodeAsync(MediaCategory.Other);
if (deviceInputNodeResult.Status != AudioDeviceNodeCreationStatus.Success)
{
// Cannot create device input node
return;
}
deviceInputNode = deviceInputNodeResult.DeviceInputNode;
#if false
//For File recording not use now.
FileSavePicker saveFilePicker = new FileSavePicker();
saveFilePicker.FileTypeChoices.Add("Pulse Code Modulation", new List <string>()
{
".wav"
});
saveFilePicker.FileTypeChoices.Add("Windows Media Audio", new List <string>()
{
".wma"
});
saveFilePicker.FileTypeChoices.Add("MPEG Audio Layer-3", new List <string>()
{
".mp3"
});
saveFilePicker.SuggestedFileName = "New Audio Track";
StorageFile file = await saveFilePicker.PickSaveFileAsync();
MediaEncodingProfile fileProfile = CreateMediaEncodingProfile(file);
// Operate node at the graph format, but save file at the specified format
CreateAudioFileOutputNodeResult fileOutputNodeResult = await uwpAudioGraph.CreateFileOutputNodeAsync(file, fileProfile);
if (fileOutputNodeResult.Status != AudioFileNodeCreationStatus.Success)
{
// FileOutputNode creation failed
//rootPage.NotifyUser(String.Format("Cannot create output file because {0}", fileOutputNodeResult.Status.ToString()), NotifyType.ErrorMessage);
//fileButton.Background = new SolidColorBrush(Colors.Red);
return;
}
fileOutputNode = fileOutputNodeResult.FileOutputNode;
deviceInputNode.AddOutgoingConnection(fileOutputNode);
#endif
// Connect the input node to both output nodes
deviceInputNode.AddOutgoingConnection(deviceOutputNode);
}
