/// <summary>
/// Initializes default audio endpoint and attaches sound listener into it
/// </summary>
protected static void Init()
{
if (isInitted)
{
return;
}
lock (lockObj)
{
//Double checked locking
if (isInitted)
{
return;
}
//Get default audio endpoint and attach sound listener
var audioEndpoint = NAudioHelper.GetDefaultAudioEndpoint();
if (audioEndpoint != null)
{
NAudioHelper.AttachSoundLevelListener(audioEndpoint);
}
//Set isInitted to true to make sure the logic executes only once
isInitted = true;
}
}
public async Task <double> GetMediaDurationInMinUsingMediaElement(string mediaFile)
{
tb1.Text = Title = $"{System.IO.Path.GetFileName(mediaFile)} ";
var ttlMin = await getDurnUsingMediaElnt(mediaFile);
for (int j = 20; j > 0 && ttlMin == ConstHelper.Unknown4004Duration; j--)
{
await Task.Delay(3000);
await Application.Current.Dispatcher.BeginInvoke(new Action(async() => { ttlMin = await getDurnUsingMediaElnt(mediaFile); }));
tb1.Text = Title += $"{j} ";
}
if (ttlMin == ConstHelper.Unknown4004Duration || ttlMin > 300)
{
ttlMin = NAudioHelper.GetDuration(mediaFile).TotalMinutes;
}
tb1.Text = Title += $" => {ttlMin:N1}min.";
tb1.Foreground = new SolidColorBrush((ttlMin == ConstHelper.Unknown4004Duration || ttlMin > 300) ? Colors.Red : Colors.Green);
return(ttlMin);
}
private MemoryStream GetResolutionNoDO(string doNoteName, ResolutionType resolutionType)
{
double bpm = double.Parse(ConfigurationManager.AppSettings["BPM"]);
double quarterNotemillis = (60 / bpm) * 1000;
TimeSpan quarterNoteDuration = TimeSpan.FromMilliseconds(quarterNotemillis);
TimeSpan halfNoteDuration = quarterNoteDuration.Add(quarterNoteDuration);
TimeSpan wholeNoteDuration = halfNoteDuration.Add(halfNoteDuration);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider note1;
ISampleProvider note2;
switch (resolutionType)
{
case ResolutionType.DoDoReDo:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, wholeNoteDuration);
break;
case ResolutionType.DoDoFaMi:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, wholeNoteDuration);
break;
case ResolutionType.DoDoLaSo:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, wholeNoteDuration);
break;
case ResolutionType.DoDoTiHighDo:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + 12, wholeNoteDuration);
break;
case ResolutionType.DoDoLowTiDo:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.DownMinor2nd, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, wholeNoteDuration);
break;
default:
throw new NotSupportedException($"ResolutionType '{resolutionType}' is not supported.");
}
ISampleProvider phrase = note1
.FollowedBy(note2);
SampleToWaveProvider stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
return(wavStream);
}
private MixingSampleProvider CreateMajorTriad(string doNoteName, string chordAndInversion, string movement)
{
_log.Debug($"doNoteName: {doNoteName}, chordAndInversion: {chordAndInversion}, movement: {movement ?? "null"}");
double bpm = double.Parse(ConfigurationManager.AppSettings["BPM"]);
double quarterNoteMillis = (60 / bpm) * 1000;
double halfNoteMillis = quarterNoteMillis * 2;
TimeSpan noteDuration = TimeSpan.FromMilliseconds(halfNoteMillis);
string doNoteRegisterString = Regex.Replace(doNoteName, "[A-G#b]", "");
int doNoteRegister = int.Parse(doNoteRegisterString);
string[] parts = chordAndInversion.Trim().Split(' ');
string chord = parts[0].Trim();
string inversion = parts[1].Trim();
InversionType inversionType;
switch (inversion)
{
case "(root)":
inversionType = InversionType.Root;
break;
case "(1st)":
inversionType = InversionType.LowFirst;
break;
case "(2nd)":
inversionType = InversionType.LowSecond;
break;
default:
inversionType = InversionType.Root;
break;
}
string thisChordRootNote = GetClosestNote(doNoteName, chord);
//thisChordRootNote = chord + doNoteRegister.ToString();
_log.Debug($"doNoteName: {doNoteName}, thisChordRootNote: {thisChordRootNote}");
string doFileName = NAudioHelper.GetFileNameFromNoteName(thisChordRootNote);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider[] samples;
samples = Inversion.CreateTriadInversionEx(inversionType, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
MixingSampleProvider msp = new MixingSampleProvider(samples[0].WaveFormat);
msp.AddMixerInput(samples[0]);
msp.AddMixerInput(samples[1]);
msp.AddMixerInput(samples[2]);
msp.AddMixerInput(samples[3]);
return(msp);
}
private MemoryStream GetHarmonicDrill(string doNoteName, L1C7HarmonicDrillType drillType)
{
TimeSpan duration = TimeSpan.FromSeconds(3);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider note1, note2;
switch (drillType)
{
// Minor 2nds.
case L1C7HarmonicDrillType.MiFa2nd:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, duration);
break;
case L1C7HarmonicDrillType.TiDo2nd:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, duration);
break;
// Major 7ths.
case L1C7HarmonicDrillType.DoTi7th:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, duration);
break;
case L1C7HarmonicDrillType.FaMi7th:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, duration);
break;
default:
throw new NotSupportedException($"L1C7HarmonicDrillType '{drillType}' is not supported.");
}
MixingSampleProvider msp = new MixingSampleProvider(note1.WaveFormat);
msp.AddMixerInput(note1);
msp.AddMixerInput(note2);
var stwp = new SampleToWaveProvider(msp);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
return(wavStream);
}
public ActionResult GetNoteEx(string doNoteName, int type)
{
int doNoteNumber = NoteHelper.NoteNumberFromNoteName(doNoteName);
int thisNoteNumber = doNoteNumber + type;
ISampleProvider note = NAudioHelper.GetSampleProvider(thisNoteNumber, TimeSpan.FromSeconds(3));
var stwp = new SampleToWaveProvider(note);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
return(Redirect($"~/Temp/{fileName}"));
}
public ActionResult GetDOEx(string doNoteName)
{
_log.Info("Entered. Getting the note...");
ISampleProvider note = NAudioHelper.GetSampleProvider(doNoteName, TimeSpan.FromSeconds(2));
_log.Info("Got the note");
var stwp = new SampleToWaveProvider(note);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
return(Redirect($"~/Temp/{fileName}"));
}
public ActionResult GetPitchEx(string doNoteName, int type)
{
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
int noteNumber = doNoteNumber + type;
TimeSpan noteDuration = TimeSpan.FromSeconds(3);
var note = NAudioHelper.GetSampleProvider(noteNumber, noteDuration);
var stwp = new SampleToWaveProvider(note);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
return(Redirect($"~/Temp/{fileName}"));
}
public ActionResult DecreaseVolume(int level)
{
//Get default endpoint
var audioEndpoint = NAudioHelper.GetDefaultAudioEndpoint();
if (audioEndpoint == null)
{
return(Json("No devices found to record"));
}
try
{
if (audioEndpoint.AudioEndpointVolume.MasterVolumeLevelScalar == 0)
{
return(Json("Device is already muted"));
}
//Set new volume and mute flag
float newVolume = 0;
if (level != 0)
{
newVolume = audioEndpoint.AudioEndpointVolume.MasterVolumeLevelScalar - (float)0.1;
}
if (newVolume < 0)
{
newVolume = 0;
}
audioEndpoint.AudioEndpointVolume.MasterVolumeLevelScalar = newVolume;
audioEndpoint.AudioEndpointVolume.Mute = newVolume == 0;
}
catch
{
//Swallow and return
return(Json("An error has occured. WHAT DID YOU DO YOU????"));
}
return(Json(new { }));
}
private MemoryStream GetMelodicInterval(string doNoteName, L1C7MelodicDrillType drillType)
{
double bpm = double.Parse(ConfigurationManager.AppSettings["BPM"]);
double quarterNoteMillis = (60 / bpm) * 1000;
TimeSpan halfNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 2);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider note1, note2;
switch (drillType)
{
#region Minor 2nds / minor 7ths
// Minor 2nd intervals.
case L1C7MelodicDrillType.MiFa2Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
break;
case L1C7MelodicDrillType.TiDo2Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, halfNoteDuration);
break;
case L1C7MelodicDrillType.FaMi2Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, halfNoteDuration);
break;
case L1C7MelodicDrillType.DoTi2Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
break;
// Major 7th intervals.
case L1C7MelodicDrillType.DoTi7Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
break;
case L1C7MelodicDrillType.FaMi7Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, halfNoteDuration);
break;
case L1C7MelodicDrillType.TiDo7Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, halfNoteDuration);
break;
case L1C7MelodicDrillType.MiFa7Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
break;
#endregion Major 2nds / min 7ths
default:
throw new NotSupportedException($"L1C6MelodicDrillType '{drillType}' is not supported.");
}
var phrase = note1
.FollowedBy(note2);
var stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
return(wavStream);
}
private MemoryStream GetMelodicDrill(string doNoteName, L1C7MelodicDrillType drillType)
{
double bpm = double.Parse(ConfigurationManager.AppSettings["BPM"]);
double quarterNoteMillis = (60 / bpm) * 1000;
TimeSpan eighthNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis / 2);
TimeSpan quarterNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis);
TimeSpan dottedQuarterNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis).Add(eighthNoteDuration);
TimeSpan halfNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 2);
TimeSpan halfNoteAndEighthNoteDuration = halfNoteDuration.Add(eighthNoteDuration);
TimeSpan wholeNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 4);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider note1, note2, note3, note4 = null;
switch (drillType)
{
// Minor 2nd intervals.
case L1C7MelodicDrillType.MiMiFaMiMin2nd:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteAndEighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, wholeNoteDuration);
break;
case L1C7MelodicDrillType.TiDoDoMin2nd:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.DownMinor2nd, dottedQuarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, halfNoteAndEighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber, wholeNoteDuration);
break;
case L1C7MelodicDrillType.FaFaMiMiMin2nd:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, halfNoteAndEighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, wholeNoteDuration);
break;
case L1C7MelodicDrillType.DoTiDoMin2nd:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, dottedQuarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.DownMinor2nd, halfNoteAndEighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber, wholeNoteDuration);
break;
// Major 7th intervals.
case L1C7MelodicDrillType.DoDoTiDoMaj7th:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteAndEighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, wholeNoteDuration);
break;
case L1C7MelodicDrillType.FaMiMiMaj7th:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, dottedQuarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, halfNoteAndEighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, wholeNoteDuration);
break;
case L1C7MelodicDrillType.TiTiDoDoMaj7th:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber, halfNoteAndEighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber, wholeNoteDuration);
break;
case L1C7MelodicDrillType.MiFaMiMaj7th:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, dottedQuarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteAndEighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, wholeNoteDuration);
break;
default:
throw new NotSupportedException($"L1C7MelodicDrillType '{drillType}' is not supported.");
}
var phrase = note1
.FollowedBy(note2)
.FollowedBy(note3);
if (note4 != null)
{
phrase = phrase.FollowedBy(note4);
}
var stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
return(wavStream);
}
public ActionResult Get4ChordProgression(string doNoteName, string progression)
{
TimeSpan noteDuration = TimeSpan.FromSeconds(2);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
string[] chords = progression.Split('-');
ISampleProvider[] samples1, samples2, samples3, samples4;
// First chord.
string[] chordParts = chords[0].Split(' ');
int degree = int.Parse(chordParts[0]);
int newDoNoteNumber = GetDoNoteNumber(doNoteNumber, degree);
samples1 = CreateTriad(newDoNoteNumber, degree, noteDuration);
// Second chord.
chordParts = chords[1].Split(' ');
degree = int.Parse(chordParts[0]);
newDoNoteNumber = GetDoNoteNumber(doNoteNumber, degree);
samples2 = CreateTriad(newDoNoteNumber, degree, noteDuration);
// Third chord.
chordParts = chords[2].Split(' ');
degree = int.Parse(chordParts[0]);
newDoNoteNumber = GetDoNoteNumber(doNoteNumber, degree);
samples3 = CreateTriad(newDoNoteNumber, degree, noteDuration);
// Fourth chord.
chordParts = chords[3].Split(' ');
degree = int.Parse(chordParts[0]);
newDoNoteNumber = GetDoNoteNumber(doNoteNumber, degree);
samples4 = CreateTriad(newDoNoteNumber, degree, noteDuration);
MixingSampleProvider msp1 = new MixingSampleProvider(samples1[0].WaveFormat);
msp1.AddMixerInput(samples1[0]);
msp1.AddMixerInput(samples1[1]);
msp1.AddMixerInput(samples1[2]);
MixingSampleProvider msp2 = new MixingSampleProvider(samples2[0].WaveFormat);
msp2.AddMixerInput(samples2[0]);
msp2.AddMixerInput(samples2[1]);
msp2.AddMixerInput(samples2[2]);
MixingSampleProvider msp3 = new MixingSampleProvider(samples3[0].WaveFormat);
msp3.AddMixerInput(samples3[0]);
msp3.AddMixerInput(samples3[1]);
msp3.AddMixerInput(samples3[2]);
MixingSampleProvider msp4 = new MixingSampleProvider(samples4[0].WaveFormat);
msp4.AddMixerInput(samples4[0]);
msp4.AddMixerInput(samples4[1]);
msp4.AddMixerInput(samples4[2]);
var phrase = msp1
.FollowedBy(msp2)
.FollowedBy(msp3)
.FollowedBy(msp4);
var stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
return(Redirect($"~/Temp/{fileName}"));
}
public ActionResult Get3ChordProgressionEx(string doNoteName, int progressiontype)
{
var progressionType = (ProgressionType3)progressiontype;
TimeSpan duration = TimeSpan.FromSeconds(2);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider[] samples1;
ISampleProvider[] samples2;
ISampleProvider[] samples3;
switch (progressionType)
{
case ProgressionType3.One2ndTwoMin1stThreeMin1st:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.HighSecond, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.TwoMinor, InversionType.HighFirst, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.ThreeMinor, InversionType.HighFirst, duration, true);
break;
case ProgressionType3.One1stFive2ndSixMin2nd:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.HighFirst, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FiveMajor, InversionType.LowSecond, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.SixMinor, InversionType.LowSecond, duration, true);
break;
case ProgressionType3.Four2ndFive1stSixMin1st:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FourMajor, InversionType.LowSecond, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FiveMajor, InversionType.LowFirst, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.SixMinor, InversionType.LowFirst, duration, true);
break;
case ProgressionType3.ThreeMin1stOne2ndTwoMin1st:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.ThreeMinor, InversionType.HighFirst, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.HighSecond, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.TwoMinor, InversionType.HighFirst, duration, true);
break;
case ProgressionType3.FourRootFive2ndThreeMinRoot:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FourMajor, InversionType.Root, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FiveMajor, InversionType.LowSecond, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.ThreeMinor, InversionType.Root, duration, true);
break;
case ProgressionType3.OneRootTwoMin2ndFour1st:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.Root, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.TwoMinor, InversionType.LowSecond, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FourMajor, InversionType.LowFirst, duration, true);
break;
case ProgressionType3.One1stThreeMinRootTwoMinFirst:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.HighFirst, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.ThreeMinor, InversionType.Root, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.TwoMinor, InversionType.HighFirst, duration, true);
break;
case ProgressionType3.Four2ndOneRootFive1st:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FourMajor, InversionType.LowSecond, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.Root, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FiveMajor, InversionType.LowFirst, duration, true);
break;
case ProgressionType3.SixMinRootFour1stOne2nd:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.SixMinor, InversionType.Root, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FourMajor, InversionType.HighFirst, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.HighSecond, duration, true);
break;
case ProgressionType3.Five2ndOneRootTwoRoot:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FiveMajor, InversionType.LowSecond, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.Root, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.TwoMinor, InversionType.Root, duration, true);
break;
case ProgressionType3.One1stFive2ndFourRoot:
samples1 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.OneMajor, InversionType.HighFirst, duration, true);
samples2 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FiveMajor, InversionType.LowSecond, duration, true);
samples3 = Inversion.CreateTriadInversionEx(doNoteNumber, TriadType.FourMajor, InversionType.Root, duration, true);
break;
default:
throw new NotSupportedException($"ProgressionType {progressionType} is not supported.");
}
MixingSampleProvider msp1 = new MixingSampleProvider(samples1[0].WaveFormat);
msp1.AddMixerInput(samples1[0]);
msp1.AddMixerInput(samples1[1]);
msp1.AddMixerInput(samples1[2]);
if (samples1[3] != null) // Bass note.
{
msp1.AddMixerInput(samples1[3]);
}
MixingSampleProvider msp2 = new MixingSampleProvider(samples2[0].WaveFormat);
msp2.AddMixerInput(samples2[0]);
msp2.AddMixerInput(samples2[1]);
msp2.AddMixerInput(samples2[2]);
if (samples2[3] != null) // Bass note.
{
msp2.AddMixerInput(samples2[3]);
}
MixingSampleProvider msp3 = new MixingSampleProvider(samples3[0].WaveFormat);
msp3.AddMixerInput(samples3[0]);
msp3.AddMixerInput(samples3[1]);
msp3.AddMixerInput(samples3[2]);
if (samples3[3] != null) // Bass note.
{
msp3.AddMixerInput(samples3[3]);
}
var phrase = msp1
.FollowedBy(msp2)
.FollowedBy(msp3);
var stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
return(Redirect($"~/Temp/{fileName}"));
}
/// <summary>
/// 截取音频后,对每个小音频获语音转文字,一个音频对应一段文字
/// </summary>
/// <param name="startMilliSecond"></param>
/// <param name="endMilliSecond"></param>
/// <param name="reader"></param>
/// <param name="sound_path"></param>
/// <param name="_name"></param>
/// <param name="language"></param>
/// <param name="splitTime"></param>
private void GetBaiduSpeech(TimeSpan startMilliSecond, TimeSpan endMilliSecond, string sound_path, int i, string language, double splitTime)
{
string newFile = "";
string _newFile = "";
string pcm_newFile = "";
bool need_delete = true;
//将文件保存到新的文件夹(sound_path是原音频路径,newFolder是新的小音频路径,使用完成后将上传到服务器成功的音频删除)
string newFolder = System.AppDomain.CurrentDomain.BaseDirectory + "NewSoundFiles/" + Path.GetFileNameWithoutExtension(sound_path) + "/";
newFolder = newFolder.Replace("/", "\\");
AudioFileReader reader = new AudioFileReader(sound_path);
AudioFileReader _reader = null;//超过60s音频截取小音频
try
{
#region 为截取音频做准备
//开始时间往前取startMilliSecond一半的偏移,结束时间往后取间隔时间的一半的偏移
if (i == 0)
{
startMilliSecond = startMilliSecond - TimeSpan.FromMilliseconds(startMilliSecond.TotalMilliseconds / 2);
}
else
{
startMilliSecond = startMilliSecond - TimeSpan.FromMilliseconds(splitTime / 2);
}
if (endMilliSecond < reader.TotalTime)//最后一次不用取偏移
{
endMilliSecond = endMilliSecond + TimeSpan.FromMilliseconds(splitTime / 2);
}
TimeSpan span = endMilliSecond - startMilliSecond;
if (span.TotalSeconds > 60)//超过60s,只取50秒
{
span = TimeSpan.FromSeconds(50);
}
var trimed = reader.Skip(startMilliSecond).Take(endMilliSecond - startMilliSecond);
#endregion
string fileName = Path.GetFileNameWithoutExtension(sound_path) + "_" + i + Path.GetExtension(sound_path);//重命名文件
//重新存储到一个新的文件目录
if (!System.IO.Directory.Exists(newFolder))
{
System.IO.Directory.CreateDirectory(newFolder);
}
//拼接后的文件路径
newFile = newFolder + fileName;
//截取小音频文件
WaveFileWriter.CreateWaveFile16(newFile, trimed);
//上传到文件服务器
string server_path = UploadFile.PostFile(newFile);
if (Util.isNotNull(server_path))
{
//上传成功
voiceFiles.Add(server_path);
}
else
{
need_delete = false;
//上传失败,在服务器上的路径
voiceFiles.Add(Util.getServerPath() + "/NewSoundFiles/" + Path.GetFileNameWithoutExtension(sound_path) + "/" + fileName);
}
//大于60s的需要再处理
if (span == TimeSpan.FromSeconds(50))//音频大于60s,只截取50s
{
//小音频
_reader = new AudioFileReader(sound_path);
var _trimed = _reader.Skip(startMilliSecond).Take(span);
//保存新的音频文件
string _fileName = "_" + Path.GetFileNameWithoutExtension(sound_path) + "_" + i + ".pcm";//重命名文件
_newFile = newFolder + _fileName;
WaveFileWriter.CreateWaveFile16(_newFile, _trimed);
//将音频转换为文字
//baidu_text.Add(BaiduSpeech.BaiduTranslateToText(_newFile, language, _trimed.WaveFormat.SampleRate.ToString()));
baidu_text.Add(Rays.Utility.BadiAI.BaiduAI.BaiduTranslateToText(_newFile, language, trimed.WaveFormat.SampleRate.ToString()));
}
else
{
//将wav转换成pcm可以提高识别速度
pcm_newFile = NAudioHelper.GetPcmPath(newFile);
//将音频转换为文字
//baidu_text.Add(BaiduSpeech.BaiduTranslateToText(pcm_newFile, language, trimed.WaveFormat.SampleRate.ToString()));
baidu_text.Add(Rays.Utility.BadiAI.BaiduAI.BaiduTranslateToText(pcm_newFile, language, trimed.WaveFormat.SampleRate.ToString()));
}
}
catch (Exception ex)
{
LogHelper.Error("GetBaiduSpeech:" + ex.Message);
}
finally
{
reader.Close();
reader.Dispose();
if (_reader != null)
{
_reader.Close();
_reader.Dispose();
}
//删除文件
//if (File.Exists(_newFile))
//{
// File.Delete(_newFile);
//}
//if (need_delete)
//{
// if (File.Exists(newFile))
// {
// File.Delete(newFile);
// }
//}
////删除目录
//if (Directory.Exists(newFolder) && Directory.GetFiles(newFolder).Length == 0)
//{
// Directory.Delete(newFolder);
//}
//if (File.Exists(pcm_newFile))
//{
// File.Delete(pcm_newFile);
// string pcm_folder = Path.GetDirectoryName(pcm_newFile);
// //删除目录
// if (Directory.Exists(pcm_folder) && Directory.GetFiles(pcm_folder).Length == 0)
// {
// Directory.Delete(pcm_folder);
// }
//}
}
}
/// <summary>
/// 解析音频文件,获取时间戳,截取音频,语音转文字
/// </summary>
/// <param name="sound_path"></param>
/// <param name="word_path"></param>
/// <param name="language"></param>
/// <param name="splitTime"></param>
public void GetTimeSpan(string sound_path, string word_path, string language, double splitTime = 1.5)
{
//通过NAudio读取音频文件流
AudioFileReader inputStream = null;
string sound_path_mp3 = "";
try
{
if (sound_path.ToLower().EndsWith(".mp3"))
{
sound_path_mp3 = sound_path;
//通过NAudio将文件转换为WAV格式,返回新的文件路径
sound_path = NAudioHelper.GetWavPath(sound_path);
}
inputStream = new AudioFileReader(sound_path);
//WAV文件读取
WAVReader reader = new WAVReader();
reader.GetTimeSpan(sound_path, out voicePoint, out voiceMilliSecond, splitTime);
//voicePoint是为了截取小音频
//voicePoint是双数的原因是有开始时间就有一个结束时间
//最后一次的时间要加上(结束时,没有停顿时间)
if (voicePoint.Count % 2 != 0)
{
voicePoint.Add(inputStream.TotalTime);
}
LogHelper.Info("时间戳获取:成功");
//string totalTime=FfmpegHelper.getMediaDuration(sound_path);
int _name = 1;//命名
//一个时间点对应一段音频对应一段文字
LogHelper.Info("语音转文字:开始");
for (int i = 0; i < voicePoint.Count; i += 2)
{
GetBaiduSpeech(voicePoint[i], voicePoint[i + 1], sound_path, _name, language, splitTime);
++_name;
}
//word原文
if (Path.GetExtension(word_path).Contains("doc") || Path.GetExtension(word_path).Contains("docx"))
{
originalText = NPOIHelper.ExcuteWordText(word_path);
//word原文的集合
results = GetTextContrast(voiceFiles.ToArray(), voiceMilliSecond.ToArray(), baidu_text.ToArray(), originalText, language);
}
else if (Path.GetExtension(word_path).Contains("txt") || Path.GetExtension(word_path).Contains("lrc"))
{
string _originalText = Util.ReadTxt(word_path);
originalText = string.Join("", _originalText.Split('|'));
//word原文的集合
results = GetTextContrast(voiceFiles.ToArray(), voiceMilliSecond.ToArray(), baidu_text.ToArray(), _originalText, language);
}
}
catch (Exception ex)
{
LogHelper.Error(ex.Message);
}
finally
{
inputStream.Close();
inputStream.Dispose();
isFinish = true;
////删除MP3文件
//if (Util.isNotNull(sound_path_mp3) && File.Exists(sound_path_mp3))
//{
// File.Delete(sound_path_mp3);
// string mp3_folder = Path.GetDirectoryName(sound_path_mp3);
// if (Directory.Exists(mp3_folder) && Directory.GetFiles(mp3_folder).Length == 0)
// {
// Directory.Delete(mp3_folder);
// }
//}
////删除word文件
//if (File.Exists(word_path))
//{
// File.Delete(word_path);
// //删除word文件目录
// string word_folder = Path.GetDirectoryName(word_path);
// if (Directory.Exists(word_folder) && Directory.GetFiles(word_folder).Length == 0)
// {
// Directory.Delete(word_folder);
// }
//}
////删除文件夹,删除原音频文件
//if (File.Exists(sound_path))
//{
// File.Delete(sound_path);
// //删除原音频目录
// string sound_folder = Path.GetDirectoryName(sound_path);
// if (Directory.Exists(sound_folder) && Directory.GetFiles(sound_folder).Length == 0)
// {
// Directory.Delete(sound_folder);
// }
//}
}
}
public ActionResult GetTriad(string doNoteName, int triadtype)
{
var triadType = (L2C5TriadType)triadtype;
InversionType inversionType = GetRandomInversion();
TimeSpan noteDuration = TimeSpan.FromSeconds(3);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider[] samples;
int newDoNoteNumber; // Used for other chords besides the I.
switch (triadType)
{
case L2C5TriadType.OneMajor:
samples = Inversion.CreateTriadInversionEx(inversionType, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
break;
case L2C5TriadType.TwoMinor:
newDoNoteNumber = doNoteNumber + Interval.UpMajor2nd;
samples = Inversion.CreateTriadInversionEx(inversionType, noteDuration, newDoNoteNumber, newDoNoteNumber + Interval.UpMinor3rd, newDoNoteNumber + Interval.UpPerfect5th);
break;
case L2C5TriadType.ThreeMinor:
newDoNoteNumber = doNoteNumber + Interval.UpMajor3rd;
samples = Inversion.CreateTriadInversionEx(inversionType, noteDuration, newDoNoteNumber, newDoNoteNumber + Interval.UpMinor3rd, newDoNoteNumber + Interval.UpPerfect5th);
break;
case L2C5TriadType.FourMajor:
newDoNoteNumber = doNoteNumber + Interval.UpPerfect4th;
samples = Inversion.CreateTriadInversionEx(inversionType, noteDuration, newDoNoteNumber, newDoNoteNumber + Interval.UpMajor3rd, newDoNoteNumber + Interval.UpPerfect5th);
break;
case L2C5TriadType.FiveMajor:
newDoNoteNumber = doNoteNumber + Interval.UpPerfect5th;
samples = Inversion.CreateTriadInversionEx(inversionType, noteDuration, newDoNoteNumber, newDoNoteNumber + Interval.UpMajor3rd, newDoNoteNumber + Interval.UpPerfect5th);
break;
case L2C5TriadType.SixMinor:
newDoNoteNumber = doNoteNumber + Interval.UpMajor6th;
samples = Inversion.CreateTriadInversionEx(inversionType, noteDuration, newDoNoteNumber, newDoNoteNumber + Interval.UpMinor3rd, newDoNoteNumber + Interval.UpPerfect5th);
break;
case L2C5TriadType.SevenDiminished:
newDoNoteNumber = doNoteNumber + Interval.UpMajor7th;
samples = Inversion.CreateTriadInversionEx(inversionType, noteDuration, newDoNoteNumber, newDoNoteNumber + Interval.UpMinor3rd, newDoNoteNumber + Interval.UpDiminished5th);
break;
default:
throw new NotSupportedException($"L2C5TriadType {triadType} is not supported.");
}
MixingSampleProvider msp = new MixingSampleProvider(samples[0].WaveFormat);
msp.AddMixerInput(samples[0]);
msp.AddMixerInput(samples[1]);
msp.AddMixerInput(samples[2]);
IWaveProvider wp = msp.ToWaveProvider();
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, wp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
return(Redirect($"~/Temp/{fileName}"));
}
/// <summary>
/// 解析音频文件,获取时间戳,截取音频,语音转文字
/// </summary>
/// <param name="sound_path"></param>
/// <param name="word_path"></param>
/// <param name="language"></param>
/// <param name="splitTime"></param>
public void GetTimeSpanLrc(string sound_path, string word_path, string language, double splitTime = 1.5)
{
string sound_path_mp3 = ""; //音频格式转换后的文件
List <string> cut_sound_files = new List <string> (); //切分后的音频文件
string folder = Path.GetDirectoryName(sound_path);
try
{
if (sound_path.ToLower().EndsWith(".mp3"))
{
sound_path_mp3 = sound_path;
//通过NAudio将文件转换为WAV格式,返回新的文件路径
sound_path = NAudioHelper.GetWavPath(sound_path);
}
//音频处理,通过lrc的时间戳来截取音频与内容
//1.先从lrc里面获取时间戳与内容
if (Path.GetExtension(word_path).Contains("lrc"))
{
Dictionary <TimeSpan, string> lrcs = Util.ReadLrc(word_path);
List <TimeSpan> times = lrcs.Keys.ToList();
for (int i = 0; i < times.Count; i++)
{
TextContrastResult _result = new TextContrastResult();
//2.通过时间戳,截取音频
string cut_sound_file = folder + "\\" + i + "_" + sys.getRandomStr() + Path.GetExtension(sound_path);
TimeSpan _start = new TimeSpan();
TimeSpan _end = new TimeSpan();
if (i == times.Count - 1)
{
_end = TimeSpan.Parse(FfmpegHelper.getMediaDuration(sound_path));
}
else
{
_end = times[i + 1];
}
_start = times[i];
_result.timespan = times[i].TotalSeconds;
_result.contractText = lrcs[times[i]];
_result.baiduText = lrcs[times[i]];
_result.precent = "100%";
bool is_success = FfmpegHelper.CutAudioFile(sound_path, cut_sound_file, _start, _end - _start);
if (is_success)
{
cut_sound_files.Add(cut_sound_file);
}
//上传到服务器
if (File.Exists(cut_sound_file))
{
string server_path = UploadFile.PostFile(cut_sound_file);
_result.file_url = server_path;
}
results.Add(_result);
}
}
//原文
string _originalText = Util.ReadTxt(word_path);
originalText = string.Join("", _originalText.Split('|'));
}
catch (Exception ex)
{
LogHelper.Error(ex.Message);
}
finally
{
isFinish = true;
//删除切分的文件
foreach (string cut_sound_file in cut_sound_files)
{
if (Util.isNotNull(cut_sound_file) && File.Exists(cut_sound_file))
{
File.Delete(cut_sound_file);
}
}
//删除MP3文件
if (Util.isNotNull(sound_path_mp3) && File.Exists(sound_path_mp3))
{
File.Delete(sound_path_mp3);
string mp3_folder = Path.GetDirectoryName(sound_path_mp3);
if (Directory.Exists(mp3_folder) && Directory.GetFiles(mp3_folder).Length == 0)
{
Directory.Delete(mp3_folder);
}
}
//删除word文件
if (File.Exists(word_path))
{
File.Delete(word_path);
//删除word文件目录
string word_folder = Path.GetDirectoryName(word_path);
if (Directory.Exists(word_folder) && Directory.GetFiles(word_folder).Length == 0)
{
Directory.Delete(word_folder);
}
}
//删除文件夹,删除原音频文件
if (File.Exists(sound_path))
{
File.Delete(sound_path);
//删除原音频目录
string sound_folder = Path.GetDirectoryName(sound_path);
if (Directory.Exists(sound_folder) && Directory.GetFiles(sound_folder).Length == 0)
{
Directory.Delete(sound_folder);
}
}
}
}
public ActionResult Get2ChordProgression(string doNoteName, int progressiontype)
{
var progressionType = (L2C4ProgressionType)progressiontype;
TimeSpan noteDuration = TimeSpan.FromSeconds(2);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider[] samples1;
ISampleProvider[] samples2;
switch (progressionType)
{
case L2C4ProgressionType.Five2ndToOne1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th);
samples2 = Inversion.CreateTriadInversionEx(InversionType.HighFirst, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
break;
case L2C4ProgressionType.Five1stToOneRoot:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration, doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th);
samples2 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
break;
case L2C4ProgressionType.FiveRootToOne2nd:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th);
samples2 = Inversion.CreateTriadInversionEx(InversionType.HighSecond, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
break;
case L2C4ProgressionType.Four1stToOne2nd:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave);
samples2 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
break;
case L2C4ProgressionType.FourRootToOne1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave);
samples2 = Inversion.CreateTriadInversionEx(InversionType.HighFirst, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
break;
case L2C4ProgressionType.Four2ndToOneRoot:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave);
samples2 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
break;
case L2C4ProgressionType.OneRootToFlatTwoRoot:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
samples2 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpMinor2nd, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpAugmented5th);
break;
case L2C4ProgressionType.OneRootToFlatTwo2nd:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
samples2 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpMinor2nd, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpAugmented5th);
break;
case L2C4ProgressionType.OneRootToSevenRoot:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
samples2 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration.Add(noteDuration), doNoteNumber + Interval.DownMinor2nd, doNoteNumber + Interval.UpMinor3rd, doNoteNumber + Interval.UpDiminished5th);
break;
case L2C4ProgressionType.OneRootToSeven1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th);
samples2 = Inversion.CreateTriadInversionEx(InversionType.HighFirst, noteDuration.Add(noteDuration), doNoteNumber + Interval.DownMinor2nd, doNoteNumber + Interval.UpMinor3rd, doNoteNumber + Interval.UpDiminished5th);
break;
default:
throw new NotSupportedException($"ProgressionType {progressionType} is not supported.");
}
MixingSampleProvider msp1 = new MixingSampleProvider(samples1[0].WaveFormat);
msp1.AddMixerInput(samples1[0]);
msp1.AddMixerInput(samples1[1]);
msp1.AddMixerInput(samples1[2]);
MixingSampleProvider msp2 = new MixingSampleProvider(samples2[0].WaveFormat);
msp2.AddMixerInput(samples2[0]);
msp2.AddMixerInput(samples2[1]);
msp2.AddMixerInput(samples2[2]);
var phrase = msp1
.FollowedBy(msp2);
var stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
return(Redirect($"~/Temp/{fileName}"));
}
private MemoryStream GetMelodicInterval(string doNoteName, L1C5MelodicDrillType drillType)
{
double bpm = double.Parse(ConfigurationManager.AppSettings["BPM"]);
double quarterNoteMillis = (60 / bpm) * 1000;
TimeSpan halfNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 2);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider note1, note2;
switch (drillType)
{
#region 4ths.
case L1C5MelodicDrillType.DoFa4Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
break;
case L1C5MelodicDrillType.ReSo4Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, halfNoteDuration);
break;
case L1C5MelodicDrillType.MiLa4Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
break;
case L1C5MelodicDrillType.FaTi4Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
break;
case L1C5MelodicDrillType.SoDo4Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, halfNoteDuration);
break;
case L1C5MelodicDrillType.LaRe4Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, halfNoteDuration);
break;
case L1C5MelodicDrillType.TiMi4Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, halfNoteDuration);
break;
case L1C5MelodicDrillType.FaDo4Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, halfNoteDuration);
break;
case L1C5MelodicDrillType.SoRe4Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, halfNoteDuration);
break;
case L1C5MelodicDrillType.LaMi4Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, halfNoteDuration);
break;
case L1C5MelodicDrillType.TiFa4Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
break;
case L1C5MelodicDrillType.DoSo4Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, halfNoteDuration);
break;
case L1C5MelodicDrillType.ReLa4Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
break;
case L1C5MelodicDrillType.MiTi4Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
break;
#endregion 4ths.
#region 5ths.
case L1C5MelodicDrillType.DoSo5Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, halfNoteDuration);
break;
case L1C5MelodicDrillType.ReLa5Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
break;
case L1C5MelodicDrillType.MiTi5Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
break;
case L1C5MelodicDrillType.FaDo5Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, halfNoteDuration);
break;
case L1C5MelodicDrillType.SoRe5Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, halfNoteDuration);
break;
case L1C5MelodicDrillType.LaMi5Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, halfNoteDuration);
break;
case L1C5MelodicDrillType.TiFa5Asc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect11th, halfNoteDuration);
break;
case L1C5MelodicDrillType.SoDo5Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, halfNoteDuration);
break;
case L1C5MelodicDrillType.LaRe5Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, halfNoteDuration);
break;
case L1C5MelodicDrillType.TiMi5Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, halfNoteDuration);
break;
case L1C5MelodicDrillType.DoFa5Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, halfNoteDuration);
break;
case L1C5MelodicDrillType.ReSo5Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, halfNoteDuration);
break;
case L1C5MelodicDrillType.MiLa5Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, halfNoteDuration);
break;
case L1C5MelodicDrillType.FaTi5Desc:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect11th, halfNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, halfNoteDuration);
break;
#endregion 5ths.
default:
throw new NotSupportedException($"L1C5MelodicDrillType '{drillType}' is not supported.");
}
var phrase = note1
.FollowedBy(note2);
var stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
return(wavStream);
}
private MemoryStream GetHarmonicDrillEx(string doNoteName, L1C5HarmonicDrillType drillType)
{
TimeSpan duration = TimeSpan.FromSeconds(3);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider note1, note2;
switch (drillType)
{
#region 4ths.
case L1C5HarmonicDrillType.DoFa4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, duration);
break;
case L1C5HarmonicDrillType.ReSo4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, duration);
break;
case L1C5HarmonicDrillType.MiLa4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, duration);
break;
case L1C5HarmonicDrillType.FaTi4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, duration);
break;
case L1C5HarmonicDrillType.SoDo4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, duration);
break;
case L1C5HarmonicDrillType.LaRe4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, duration);
break;
case L1C5HarmonicDrillType.TiMi4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, duration);
break;
#endregion 4ths.
#region 5ths.
case L1C5HarmonicDrillType.DoSo5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, duration);
break;
case L1C5HarmonicDrillType.ReLa5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, duration);
break;
case L1C5HarmonicDrillType.MiTi5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, duration);
break;
case L1C5HarmonicDrillType.FaDo5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, duration);
break;
case L1C5HarmonicDrillType.SoRe5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, duration);
break;
case L1C5HarmonicDrillType.LaMi5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, duration);
break;
case L1C5HarmonicDrillType.TiFa5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, duration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect11th, duration);
break;
#endregion 5ths.
default:
throw new NotSupportedException($"L1C5HarmonicDrillType '{drillType}' is not supported.");
}
MixingSampleProvider msp = new MixingSampleProvider(note1.WaveFormat);
msp.AddMixerInput(note1);
msp.AddMixerInput(note2);
var stwp = new SampleToWaveProvider(msp);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
return(wavStream);
}
/// <summary>
/// 解析音频文件,获取时间戳,截取音频,语音转文字
/// </summary>
/// <param name="sound_path"></param>
/// <param name="word_path"></param>
/// <param name="language"></param>
/// <param name="splitTime"></param>
public void GetTimeSpan(string sound_path, string word_path, string language, double splitTime = 1.5)
{
//通过NAudio读取音频文件流
AudioFileReader inputStream = null;
string sound_path_mp3 = "";
try
{
if (sound_path.ToLower().EndsWith(".mp3"))
{
sound_path_mp3 = sound_path;
//通过NAudio将文件转换为WAV格式,返回新的文件路径
sound_path = NAudioHelper.GetWavPath(sound_path);
}
inputStream = new AudioFileReader(sound_path);
//WAV文件读取
WAVReader reader = new WAVReader();
//reader.GetTimeSpan(sound_path, out voicePoint, out voiceMilliSecond, splitTime);
reader.GetTimeSpan(sound_path, out voicePoint, out musicContents, splitTime);
//voicePoint是为了截取小音频
//voicePoint是双数的原因是有开始时间就有一个结束时间
//最后一次的时间要加上(结束时,没有停顿时间)
if (voicePoint.Count % 2 != 0)
{
voicePoint.Add(inputStream.TotalTime);
}
LogHelper.Info("时间戳获取:成功");
//string totalTime=FfmpegHelper.getMediaDuration(sound_path);
int _name = 1;//命名
//一个时间点对应一段音频对应一段文字
LogHelper.Info("语音转文字:开始");
for (int i = 0; i < voicePoint.Count; i += 2)
{
var para = new BaiduRead()
{
voice_time = musicContents.Select(o => o.voiceMilliSecond).ToList()[i / 2],
start = voicePoint[i],
end = voicePoint[i + 1],
sound_path = sound_path,
file_name = _name,
language = language,
splitTime = splitTime
};
Task task_max = Task.Factory.StartNew(() => {
GetBaiduSpeech(para);
});
Task.WaitAll(task_max);
//GetBaiduSpeech(para);
++_name;
}
//word原文
originalText = NPOIHelper.ExcuteWordText(word_path);
//word原文的集合
results = GetTextContrast(musicContents, originalText, language);
}
catch (Exception ex)
{
LogHelper.Error(ex.Message);
}
#region 除文件
finally
{
inputStream.Close();
inputStream.Dispose();
isFinish = true;
//删除MP3文件
if (Util.isNotNull(sound_path_mp3) && File.Exists(sound_path_mp3))
{
File.Delete(sound_path_mp3);
string mp3_folder = Path.GetDirectoryName(sound_path_mp3);
if (Directory.Exists(mp3_folder) && Directory.GetFiles(mp3_folder).Length == 0)
{
Directory.Delete(mp3_folder);
}
}
//删除word文件
if (File.Exists(word_path))
{
File.Delete(word_path);
//删除word文件目录
string word_folder = Path.GetDirectoryName(word_path);
if (Directory.Exists(word_folder) && Directory.GetFiles(word_folder).Length == 0)
{
Directory.Delete(word_folder);
}
}
//删除文件夹,删除原音频文件
if (File.Exists(sound_path))
{
File.Delete(sound_path);
//删除原音频目录
string sound_folder = Path.GetDirectoryName(sound_path);
if (Directory.Exists(sound_folder) && Directory.GetFiles(sound_folder).Length == 0)
{
Directory.Delete(sound_folder);
}
}
}
#endregion
}
public ActionResult AudioAndDictation(int resolutionType, string keySignature, double bpm, int numberOfMeasures)
{
// We'll add stuff to the Dictionary and return as JSON.
var dict = new Dictionary <string, string>();
#region Audio
//double bpm = double.Parse(ConfigurationManager.AppSettings["BPM"]);
double quarterNoteMillis = (60 / bpm) * 1000;
TimeSpan quarterNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis);
TimeSpan halfNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 2);
TimeSpan dottedHalfNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 3);
TimeSpan wholeNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 4);
// Setup the scale note numbers.
int[] scaleNoteNumbers = new int[] { 38, 39, 41, 43, 44, 46, 48, 50, 51 }; // C Major, with a low TI.
scaleNoteNumbers = NoteHelper.TransposeScaleNoteNumbers(scaleNoteNumbers, keySignature);
// The initial DO.
ISampleProvider wholeDoNote = NAudioHelper.GetSampleProvider(scaleNoteNumbers[1], wholeNoteDuration);
// Four metronome ticks before the transcription part plays.
ISampleProvider[] ticks = new ISampleProvider[4];
string tickFile = HostingEnvironment.MapPath($"~/Samples/Woodblock.wav");
for (int i = 0; i < ticks.Length; i++)
{
ticks[i] = NAudioHelper.GetSampleProviderFromFile(tickFile, quarterNoteDuration);
}
List <string> measureRhythms = GetNoteRhythms();
int randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
string measureRhythm1 = measureRhythms[randomInt];
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
string measureRhythm2 = measureRhythms[randomInt];
if (numberOfMeasures == 2)
{
while ((measureRhythm1.Split(',').Count() + measureRhythm2.Split(',').Count()) % 2 == 1) // Ensure an even number of notes, so there's always a (reverse) resolution.
{
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
measureRhythm2 = measureRhythms[randomInt];
}
}
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
string measureRhythm3 = measureRhythms[randomInt];
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
string measureRhythm4 = measureRhythms[randomInt];
if (numberOfMeasures == 4)
{
while ((measureRhythm1.Split(',').Count() + measureRhythm2.Split(',').Count() + measureRhythm3.Split(',').Count() + measureRhythm4.Split(',').Count()) % 2 == 1)
{
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
measureRhythm4 = measureRhythms[randomInt];
}
}
string[] measureRhythmSplit1 = measureRhythm1.Split(',');
int numberOfNotes1 = measureRhythmSplit1.Length;
string[] measureRhythmSplit2 = measureRhythm2.Split(',');
int numberOfNotes2 = measureRhythmSplit2.Length;
string[] measureRhythmSplit3 = measureRhythm3.Split(',');
int numberOfNotes3 = measureRhythmSplit3.Length;
string[] measureRhythmSplit4 = measureRhythm4.Split(',');
int numberOfNotes4 = measureRhythmSplit4.Length;
ISampleProvider[] notes1 = new ISampleProvider[numberOfNotes1];
ISampleProvider[] notes2 = new ISampleProvider[numberOfNotes2];
ISampleProvider[] notes3 = new ISampleProvider[numberOfNotes3];
ISampleProvider[] notes4 = new ISampleProvider[numberOfNotes4];
Queue <int> noteNumberQueue;
switch (resolutionType)
{
case 1:
noteNumberQueue = GetResolutionIntQueue(scaleNoteNumbers, 16, 1); // 16 notes max.
break;
case 2:
noteNumberQueue = GetResolutionIntQueue(scaleNoteNumbers, 16, 2);
break;
case 3:
noteNumberQueue = GetResolutionIntQueue(scaleNoteNumbers, 16, 3);
break;
default:
throw new NotSupportedException($"ResolutionType '{resolutionType}' is not supported.");
}
int[] measureNoteNumbers1 = NoteHelper.PopulateNoteNumbersFromQueue(numberOfNotes1, noteNumberQueue);
int[] measureNoteNumbers2 = NoteHelper.PopulateNoteNumbersFromQueue(numberOfNotes2, noteNumberQueue);
int[] measureNoteNumbers3 = NoteHelper.PopulateNoteNumbersFromQueue(numberOfNotes3, noteNumberQueue);
int[] measureNoteNumbers4 = NoteHelper.PopulateNoteNumbersFromQueue(numberOfNotes4, noteNumberQueue);
NoteHelper.CreateSamplesFromRhythmsAndNoteNames(new TimeSpan(), quarterNoteDuration, halfNoteDuration, dottedHalfNoteDuration, wholeNoteDuration, measureRhythmSplit1, notes1, measureNoteNumbers1);
NoteHelper.CreateSamplesFromRhythmsAndNoteNames(new TimeSpan(), quarterNoteDuration, halfNoteDuration, dottedHalfNoteDuration, wholeNoteDuration, measureRhythmSplit2, notes2, measureNoteNumbers2);
NoteHelper.CreateSamplesFromRhythmsAndNoteNames(new TimeSpan(), quarterNoteDuration, halfNoteDuration, dottedHalfNoteDuration, wholeNoteDuration, measureRhythmSplit3, notes3, measureNoteNumbers3);
NoteHelper.CreateSamplesFromRhythmsAndNoteNames(new TimeSpan(), quarterNoteDuration, halfNoteDuration, dottedHalfNoteDuration, wholeNoteDuration, measureRhythmSplit4, notes4, measureNoteNumbers4);
ISampleProvider phrase =
wholeDoNote;
foreach (var tick in ticks)
{
phrase = phrase.FollowedBy(tick);
}
foreach (var note1 in notes1)
{
phrase = phrase.FollowedBy(note1);
}
foreach (var note2 in notes2)
{
phrase = phrase.FollowedBy(note2);
}
if (numberOfMeasures == 4)
{
foreach (var note3 in notes3)
{
phrase = phrase.FollowedBy(note3);
}
foreach (var note4 in notes4)
{
phrase = phrase.FollowedBy(note4);
}
}
// HACK: Use an empty note because without it, the audio gets cut short.
ISampleProvider emptyNote = NAudioHelper.GetSampleProvider(0, 0, SignalGeneratorType.White, halfNoteDuration);
phrase = phrase.FollowedBy(emptyNote);
SampleToWaveProvider stwp = new SampleToWaveProvider(phrase);
MixingSampleProvider msp = new MixingSampleProvider(stwp.WaveFormat);
msp.AddMixerInput(stwp);
int totalTicks = 8 + (4 * numberOfMeasures);
ISampleProvider[] metronomeTicks = new ISampleProvider[totalTicks];
// The first two measures have zero gain, as this is the initial DO whole note and metronome ticks.
for (int i = 0; i < 8; i++)
{
metronomeTicks[i] = NAudioHelper.GetSampleProvider(0, 0, SignalGeneratorType.White, quarterNoteDuration);
}
for (int i = 8; i < totalTicks; i++)
{
metronomeTicks[i] = NAudioHelper.GetSampleProviderFromFile(tickFile, quarterNoteDuration);
}
ISampleProvider metronomePhrase = metronomeTicks[0];
for (int i = 0; i < metronomeTicks.Length; i++)
{
metronomePhrase = metronomePhrase.FollowedBy(metronomeTicks[i]);
}
msp.AddMixerInput(metronomePhrase);
IWaveProvider wp = msp.ToWaveProvider();
MemoryStream wavStream = new MemoryStream();
//WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
WaveFileWriter.WriteWavFileToStream(wavStream, wp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
dict.Add("src", fileName);
#endregion Audio
#region Notation
string[] noteNames1 = new string[numberOfNotes1];
NoteHelper.AdjustNoteNamesForKey(keySignature, measureNoteNumbers1, noteNames1);
string[] noteNames2 = new string[numberOfNotes2];
NoteHelper.AdjustNoteNamesForKey(keySignature, measureNoteNumbers2, noteNames2);
string[] noteNames3 = new string[numberOfNotes3];
NoteHelper.AdjustNoteNamesForKey(keySignature, measureNoteNumbers3, noteNames3);
string[] noteNames4 = new string[numberOfNotes4];
NoteHelper.AdjustNoteNamesForKey(keySignature, measureNoteNumbers4, noteNames4);
string script1 = NoteHelper.GetEasyScoreScript("transcription1", noteNames1, measureRhythmSplit1, keySignature, true);
dict.Add("theScript1", script1);
string script2 = NoteHelper.GetEasyScoreScript("transcription2", noteNames2, measureRhythmSplit2, keySignature, false);
dict.Add("theScript2", script2);
if (numberOfMeasures == 4)
{
string script3 = NoteHelper.GetEasyScoreScript("transcription3", noteNames3, measureRhythmSplit3, keySignature, false);
dict.Add("theScript3", script3);
string script4 = NoteHelper.GetEasyScoreScript("transcription4", noteNames4, measureRhythmSplit4, keySignature, false);
dict.Add("theScript4", script4);
}
#endregion Notation
var json = Json(dict, JsonRequestBehavior.AllowGet);
return(json);
}
public ActionResult Get3ChordProgressionEx(string doNoteName, int progressiontype)
{
var progressionType = (ProgressionType)progressiontype;
TimeSpan noteDuration = TimeSpan.FromSeconds(2);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider[] samples1;
ISampleProvider[] samples2;
ISampleProvider[] samples3;
switch (progressionType)
{
case ProgressionType.Four2ndFive1stOneRoot:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, (doNoteNumber + Interval.UpPerfect4th).BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration, doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th, (doNoteNumber + Interval.UpPerfect5th).BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
break;
case ProgressionType.OneRootFour2ndFive1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, (doNoteNumber + Interval.UpPerfect4th).BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th, (doNoteNumber + Interval.UpPerfect5th).BassNoteNumber());
break;
case ProgressionType.Four2ndOneRootFive1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, (doNoteNumber + Interval.UpPerfect4th).BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th, (doNoteNumber + Interval.UpPerfect5th).BassNoteNumber());
break;
case ProgressionType.OneRootFive1stSixMin1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration, doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th, (doNoteNumber + Interval.UpPerfect5th).BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, doNoteNumber + Interval.UpMajor10th, (doNoteNumber + Interval.UpMajor6th).BassNoteNumber());
break;
case ProgressionType.SixMin2ndFourRootOne1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, doNoteNumber + Interval.UpMajor10th, (doNoteNumber + Interval.UpMajor6th).BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, (doNoteNumber + Interval.UpPerfect4th).BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.HighFirst, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
break;
case ProgressionType.OneRootSixMin1stFive1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, doNoteNumber + Interval.UpMajor10th, (doNoteNumber + Interval.UpMajor6th).BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th, (doNoteNumber + Interval.UpPerfect5th).BassNoteNumber());
break;
case ProgressionType.FiveRootFourRootSixMin2nd:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th, (doNoteNumber + Interval.UpPerfect5th).BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, (doNoteNumber + Interval.UpPerfect4th).BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, doNoteNumber + Interval.UpMajor10th, (doNoteNumber + Interval.UpMajor6th).BassNoteNumber());
break;
case ProgressionType.FourRootFiveRootSixMinRoot:
samples1 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, (doNoteNumber + Interval.UpPerfect4th).BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration, doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th, (doNoteNumber + Interval.UpPerfect5th).BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, doNoteNumber + Interval.UpMajor10th, (doNoteNumber + Interval.UpMajor6th).BassNoteNumber());
break;
case ProgressionType.SixMin1stOne2ndFour1st:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, doNoteNumber + Interval.UpMajor10th, (doNoteNumber + Interval.UpMajor6th).BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.LowFirst, noteDuration.Add(noteDuration), doNoteNumber + Interval.UpPerfect4th, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, (doNoteNumber + Interval.UpPerfect4th).BassNoteNumber());
break;
case ProgressionType.Five2ndSixMin2ndOneRoot:
samples1 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber + Interval.UpPerfect5th, doNoteNumber + Interval.UpMajor7th, doNoteNumber + Interval.UpMajor9th, (doNoteNumber + Interval.UpPerfect5th).BassNoteNumber());
samples2 = Inversion.CreateTriadInversionEx(InversionType.LowSecond, noteDuration, doNoteNumber + Interval.UpMajor6th, doNoteNumber + Interval.UpPerfectOctave, doNoteNumber + Interval.UpMajor10th, (doNoteNumber + Interval.UpMajor6th).BassNoteNumber());
samples3 = Inversion.CreateTriadInversionEx(InversionType.Root, noteDuration.Add(noteDuration), doNoteNumber, doNoteNumber + Interval.UpMajor3rd, doNoteNumber + Interval.UpPerfect5th, doNoteNumber.BassNoteNumber());
break;
default:
throw new NotSupportedException($"ProgressionType {progressionType} is not supported.");
}
// First chord.
MixingSampleProvider msp1 = new MixingSampleProvider(samples1[0].WaveFormat);
msp1.AddMixerInput(samples1[0]);
msp1.AddMixerInput(samples1[1]);
msp1.AddMixerInput(samples1[2]);
if (samples1[3] != null) // Bass note.
{
msp1.AddMixerInput(samples1[3]);
}
// Second chord.
MixingSampleProvider msp2 = new MixingSampleProvider(samples2[0].WaveFormat);
msp2.AddMixerInput(samples2[0]);
msp2.AddMixerInput(samples2[1]);
msp2.AddMixerInput(samples2[2]);
if (samples2[3] != null) // Bass note.
{
msp2.AddMixerInput(samples2[3]);
}
// Third chord.
MixingSampleProvider msp3 = new MixingSampleProvider(samples3[0].WaveFormat);
msp3.AddMixerInput(samples3[0]);
msp3.AddMixerInput(samples3[1]);
msp3.AddMixerInput(samples3[2]);
if (samples3[3] != null) // Bass note.
{
msp3.AddMixerInput(samples3[3]);
}
var phrase = msp1
.FollowedBy(msp2)
.FollowedBy(msp3);
var stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
return(Redirect($"~/Temp/{fileName}"));
}
private void InitRequest()
{
//Fill the viewbag values
ViewBag.Volume = NAudioHelper.GetCurrentSoundLevel();
ViewBag.AudioDeviceExists = NAudioHelper.GetDefaultAudioEndpoint() != null;
}
private MemoryStream GetMelodicDrillEx(string doNoteName, L1C5MelodicDrillType drillType)
{
double bpm = double.Parse(ConfigurationManager.AppSettings["BPM"]);
double quarterNoteMillis = (60 / bpm) * 1000;
double eighthNoteMillis = quarterNoteMillis / 2;
TimeSpan eighthNoteDuration = TimeSpan.FromMilliseconds(eighthNoteMillis);
TimeSpan quarterNoteDuration = eighthNoteDuration.Add(eighthNoteDuration);
TimeSpan wholeNoteDuration = quarterNoteDuration.Add(quarterNoteDuration).Add(quarterNoteDuration).Add(quarterNoteDuration);
string doFileName = NAudioHelper.GetFileNameFromNoteName(doNoteName);
doFileName = Path.GetFileName(doFileName);
int doNoteNumber = int.Parse(doFileName.Split('.')[0]);
ISampleProvider note1, note2, note3, note4, note5, note6;
switch (drillType)
{
#region 4ths.
case L1C5MelodicDrillType.DoDoDoFaFaMi4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber, eighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, quarterNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, quarterNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, wholeNoteDuration);
break;
case L1C5MelodicDrillType.ReReSoSoSoSo4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, quarterNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, quarterNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, eighthNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, eighthNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, wholeNoteDuration);
break;
case L1C5MelodicDrillType.MiMiMiLaLaSo4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, eighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, quarterNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, quarterNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, wholeNoteDuration);
break;
case L1C5MelodicDrillType.FaFaTiTiTiDo4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, quarterNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, quarterNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, eighthNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, eighthNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, wholeNoteDuration);
break;
case L1C5MelodicDrillType.SoSoSoDoDoDo4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, eighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, quarterNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, quarterNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, wholeNoteDuration);
break;
case L1C5MelodicDrillType.LaLaReReReDo4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, quarterNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, quarterNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, eighthNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, eighthNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, wholeNoteDuration);
break;
case L1C5MelodicDrillType.TiTiTiMiMiMi4:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, eighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, quarterNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, quarterNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, wholeNoteDuration);
break;
#endregion 4ths.
#region 5ths.
case L1C5MelodicDrillType.DoDoDoSoSoSo5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber, eighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, quarterNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, quarterNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, wholeNoteDuration);
break;
case L1C5MelodicDrillType.ReReLaLaLaSo5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor2nd, quarterNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, quarterNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, eighthNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, eighthNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, wholeNoteDuration);
break;
case L1C5MelodicDrillType.MiMiMiTiTiDo5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor3rd, eighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, quarterNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor7th, quarterNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, wholeNoteDuration);
break;
case L1C5MelodicDrillType.FaFaDoDoDoDo5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, quarterNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, quarterNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, eighthNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, eighthNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, wholeNoteDuration);
break;
case L1C5MelodicDrillType.SoSoSoReReDo5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect5th, eighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, quarterNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor9th, quarterNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfectOctave, wholeNoteDuration);
break;
case L1C5MelodicDrillType.LaLaMiMiMiMi5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor6th, quarterNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, quarterNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, eighthNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, eighthNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpMajor10th, wholeNoteDuration);
break;
case L1C5MelodicDrillType.FaFaFaTiTiDo5:
note1 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, quarterNoteDuration);
note2 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, eighthNoteDuration);
note3 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.UpPerfect4th, eighthNoteDuration);
note4 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.DownMinor2nd, quarterNoteDuration);
note5 = NAudioHelper.GetSampleProvider(doNoteNumber + Interval.DownMinor2nd, quarterNoteDuration);
note6 = NAudioHelper.GetSampleProvider(doNoteNumber, wholeNoteDuration);
break;
#endregion 5ths.
default:
throw new NotSupportedException($"L1C5MelodicDrillType '{drillType}' is not supported.");
}
var phrase = note1
.FollowedBy(note2)
.FollowedBy(note3)
.FollowedBy(note4)
.FollowedBy(note5)
.FollowedBy(note6);
var stwp = new SampleToWaveProvider(phrase);
MemoryStream wavStream = new MemoryStream();
WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
wavStream.Position = 0;
return(wavStream);
}
public ActionResult AudioAndDictation(int intervalType, string keySignature, double bpm, int numberOfMeasures, string smallestRhythmicUnit, bool includeC2)
{
_log.Debug($"intervalType: {intervalType}, keySignature: {keySignature}, bpm: {bpm}, numberOfMeasures: {numberOfMeasures}, smallestRhythmicUnit: {smallestRhythmicUnit}, includeC2: {includeC2}");
L1C3IntervalType intType = (L1C3IntervalType)intervalType;
bool includeEighthNoteRhythms = smallestRhythmicUnit.ToUpper() == "EIGHTH";
// We'll add stuff to the Dictionary and return as JSON.
var dict = new Dictionary <string, string>();
#region Audio
//double bpm = double.Parse(ConfigurationManager.AppSettings["BPM"]);
double quarterNoteMillis = (60 / bpm) * 1000;
TimeSpan quarterNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis);
TimeSpan halfNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 2);
TimeSpan dottedHalfNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 3);
TimeSpan wholeNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis * 4);
TimeSpan eighthNoteDuration = TimeSpan.FromMilliseconds(quarterNoteMillis / 2);
// Setup the scale note numbers.
int[] scaleNoteNumbers = new int[] { 38, 39, 41, 43, 44, 46, 48, 50, 51, 53, 55, 56, 58, 60 }; // C Major, low TI to high SO.
scaleNoteNumbers = NoteHelper.TransposeScaleNoteNumbers(scaleNoteNumbers, keySignature);
// The initial DO.
ISampleProvider wholeDoNote = NAudioHelper.GetSampleProvider(scaleNoteNumbers[1], wholeNoteDuration);
// Four metronome ticks before the transcription part plays.
ISampleProvider[] ticks = new ISampleProvider[4];
string tickFile = HostingEnvironment.MapPath($"~/Samples/Woodblock.wav");
for (int i = 0; i < ticks.Length; i++)
{
ticks[i] = NAudioHelper.GetSampleProviderFromFile(tickFile, quarterNoteDuration);
}
List <string> measureRhythms = GetNoteRhythms(includeEighthNoteRhythms);
int randomInt;
string measureRhythm1;
string measureRhythm2;
// Ensure there's at least 4 notes per 2 measures, as we need at least one C1 resolutiona and at least 1 C2 interval.
// Ensure an even number of notes, so the interval is complete.
// Ensure there's exactly one pair of eighth notes for each two measure phrase.
while (true)
{
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
measureRhythm1 = measureRhythms[randomInt];
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
measureRhythm2 = measureRhythms[randomInt];
int totalNotes = measureRhythm1.Split(',').Count() + measureRhythm2.Split(',').Count();
int totalEighthNotes = measureRhythm1.Split(',').Where(w => w == "8").Count() + measureRhythm2.Split(',').Where(w => w == "8").Count();
// Ensure a minimum number of notes for the 2 measure phrase. This could be 4, or 6 if C2 intervals are included.
int minimumNumberOfNotes = includeC2 ? 6 : 4;
if (totalNotes < minimumNumberOfNotes)
{
continue;
}
// Ensure an even number of notes.
if (totalNotes % 2 != 0)
{
continue;
}
// If quarter note is smallest rhythmic unit, ensure no eighth notes.
if (!includeEighthNoteRhythms && totalEighthNotes > 0)
{
continue;
}
// If eighth note is smallest rhythic unit, ensure just one pair of eighth notes.
if (includeEighthNoteRhythms && totalEighthNotes != 2)
{
continue;
}
break;
}
string measureRhythm3 = string.Empty;
string measureRhythm4 = string.Empty;
// TODO: Figure out how to refactor this. Kinda messy, but for now we need to populate measures 3 and 4 even if the user
// choose just 2 measures.
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
measureRhythm3 = measureRhythms[randomInt];
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
measureRhythm4 = measureRhythms[randomInt];
//if (numberOfMeasures == 4)
if (true)
{
while (true)
{
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
measureRhythm3 = measureRhythms[randomInt];
randomInt = NoteHelper.GetRandomInt(0, measureRhythms.Count);
measureRhythm4 = measureRhythms[randomInt];
int totalNotes = measureRhythm3.Split(',').Count() + measureRhythm4.Split(',').Count();
int totalEighthNotes = measureRhythm3.Split(',').Where(w => w == "8").Count() + measureRhythm4.Split(',').Where(w => w == "8").Count();
// Ensure a minimum number of notes for the 2 measure phrase. This could be 4, or 6 if C2 intervals are included.
int minimumNumberOfNotes = includeC2 ? 6 : 4;
if (totalNotes < minimumNumberOfNotes)
{
continue;
}
// Ensure an even number of notes.
if (totalNotes % 2 != 0)
{
continue;
}
// If quarter note is smallest rhythmic unit, ensure no eighth notes.
if (!includeEighthNoteRhythms && totalEighthNotes > 0)
{
continue;
}
// If eighth note is smallest rhythic unit, ensure just one pair of eighth notes.
if (includeEighthNoteRhythms && totalEighthNotes != 2)
{
continue;
}
break;
}
}
string[] measureRhythmSplit1 = measureRhythm1.Split(',');
int numberOfNotes1 = measureRhythmSplit1.Length;
string[] measureRhythmSplit2 = measureRhythm2.Split(',');
int numberOfNotes2 = measureRhythmSplit2.Length;
string[] measureRhythmSplit3 = measureRhythm3.Split(',');
int numberOfNotes3 = measureRhythmSplit3.Length;
string[] measureRhythmSplit4 = measureRhythm4.Split(',');
int numberOfNotes4 = measureRhythmSplit4.Length;
ISampleProvider[] notes1 = new ISampleProvider[numberOfNotes1];
ISampleProvider[] notes2 = new ISampleProvider[numberOfNotes2];
ISampleProvider[] notes3 = new ISampleProvider[numberOfNotes3];
ISampleProvider[] notes4 = new ISampleProvider[numberOfNotes4];
int first2MeasuresNumberOfNotes = numberOfNotes1 + numberOfNotes2;
int second2MeasuresNumberOfNotes = numberOfNotes3 + numberOfNotes4;
Queue <int> noteNumberQueue = new Queue <int>();
bool criteriaSatisfied = false;
int numberOfTries = 0;
int maxNumberOfTries = 1999;
var parametersToString = string.Empty;
try
{
while (!(noteNumberQueue.AllStepsWithinRange(12) && noteNumberQueue.AllNotesWithinRange(12) && criteriaSatisfied))
{
numberOfTries++;
//_log.Info($"numberOfTries: {numberOfTries}");
//_log.Info($"measureRhythm1: {measureRhythm1}");
//_log.Info($"measureRhythm2: {measureRhythm2}");
if (numberOfTries > maxNumberOfTries)
{
throw new PhraseGenerationException($"Aborted phrase generation after {numberOfTries} tries.");
}
noteNumberQueue = GetIntervalIntQueue(scaleNoteNumbers, first2MeasuresNumberOfNotes, second2MeasuresNumberOfNotes, intType, out criteriaSatisfied, includeC2, out parametersToString);
}
}
catch (PhraseGenerationException pgEx)
{
_log.Trace($"{numberOfTries} - {parametersToString}");
_log.Error(pgEx, $"The maxNumberOfTries ({maxNumberOfTries}) has been exceeded.");
dict.Add("hasError", "yep");
dict.Add("numberOfTries", numberOfTries.ToString());
var jsonEx = Json(dict, JsonRequestBehavior.AllowGet);
return(jsonEx);
}
_log.Trace(numberOfTries);
int[] measureNoteNumbers1 = NoteHelper.PopulateNoteNumbersFromQueue(numberOfNotes1, noteNumberQueue);
int[] measureNoteNumbers2 = NoteHelper.PopulateNoteNumbersFromQueue(numberOfNotes2, noteNumberQueue);
int[] measureNoteNumbers3 = NoteHelper.PopulateNoteNumbersFromQueue(numberOfNotes3, noteNumberQueue);
int[] measureNoteNumbers4 = NoteHelper.PopulateNoteNumbersFromQueue(numberOfNotes4, noteNumberQueue);
NoteHelper.CreateSamplesFromRhythmsAndNoteNames(eighthNoteDuration, quarterNoteDuration, halfNoteDuration, dottedHalfNoteDuration, wholeNoteDuration, measureRhythmSplit1, notes1, measureNoteNumbers1);
NoteHelper.CreateSamplesFromRhythmsAndNoteNames(eighthNoteDuration, quarterNoteDuration, halfNoteDuration, dottedHalfNoteDuration, wholeNoteDuration, measureRhythmSplit2, notes2, measureNoteNumbers2);
NoteHelper.CreateSamplesFromRhythmsAndNoteNames(eighthNoteDuration, quarterNoteDuration, halfNoteDuration, dottedHalfNoteDuration, wholeNoteDuration, measureRhythmSplit3, notes3, measureNoteNumbers3);
NoteHelper.CreateSamplesFromRhythmsAndNoteNames(eighthNoteDuration, quarterNoteDuration, halfNoteDuration, dottedHalfNoteDuration, wholeNoteDuration, measureRhythmSplit4, notes4, measureNoteNumbers4);
ISampleProvider phrase =
wholeDoNote;
foreach (var tick in ticks)
{
phrase = phrase.FollowedBy(tick);
}
foreach (var note1 in notes1)
{
phrase = phrase.FollowedBy(note1);
}
foreach (var note2 in notes2)
{
phrase = phrase.FollowedBy(note2);
}
if (numberOfMeasures == 4)
{
foreach (var note3 in notes3)
{
phrase = phrase.FollowedBy(note3);
}
foreach (var note4 in notes4)
{
phrase = phrase.FollowedBy(note4);
}
}
// HACK: Use an empty note because without it, the audio gets cut short.
ISampleProvider emptyNote = NAudioHelper.GetSampleProvider(0, 0, SignalGeneratorType.White, halfNoteDuration);
phrase = phrase.FollowedBy(emptyNote);
SampleToWaveProvider stwp = new SampleToWaveProvider(phrase);
MixingSampleProvider msp = new MixingSampleProvider(stwp.WaveFormat);
msp.AddMixerInput(stwp);
int totalTicks = 8 + (4 * numberOfMeasures);
ISampleProvider[] metronomeTicks = new ISampleProvider[totalTicks];
// The first two measures have zero gain, as this is the initial DO whole note and metronome ticks.
for (int i = 0; i < 8; i++)
{
metronomeTicks[i] = NAudioHelper.GetSampleProvider(0, 0, SignalGeneratorType.White, quarterNoteDuration);
}
for (int i = 8; i < totalTicks; i++)
{
metronomeTicks[i] = NAudioHelper.GetSampleProviderFromFile(tickFile, quarterNoteDuration);
}
ISampleProvider metronomePhrase = metronomeTicks[0];
for (int i = 0; i < metronomeTicks.Length; i++)
{
metronomePhrase = metronomePhrase.FollowedBy(metronomeTicks[i]);
}
msp.AddMixerInput(metronomePhrase);
IWaveProvider wp = msp.ToWaveProvider();
MemoryStream wavStream = new MemoryStream();
//WaveFileWriter.WriteWavFileToStream(wavStream, stwp);
WaveFileWriter.WriteWavFileToStream(wavStream, wp);
wavStream.Position = 0;
wavStream.WavToMp3File(out string fileName);
dict.Add("src", fileName);
dict.Add("numberOfTries", numberOfTries.ToString());
#endregion Audio
#region Notation
string[] noteNames1 = new string[numberOfNotes1];
NoteHelper.AdjustNoteNamesForKey(keySignature, measureNoteNumbers1, noteNames1);
string[] noteNames2 = new string[numberOfNotes2];
NoteHelper.AdjustNoteNamesForKey(keySignature, measureNoteNumbers2, noteNames2);
string[] noteNames3 = new string[numberOfNotes3];
NoteHelper.AdjustNoteNamesForKey(keySignature, measureNoteNumbers3, noteNames3);
string[] noteNames4 = new string[numberOfNotes4];
NoteHelper.AdjustNoteNamesForKey(keySignature, measureNoteNumbers4, noteNames4);
string script1 = NoteHelper.GetEasyScoreScript3("transcription1", noteNames1, measureRhythmSplit1, keySignature, true);
//string script1 = NoteHelper.GetMusicXmlScript("transcription1", noteNames1, measureRhythmSplit1, keySignature, false);
dict.Add("theScript1", script1);
string script2 = NoteHelper.GetEasyScoreScript3("transcription2", noteNames2, measureRhythmSplit2, keySignature, false);
dict.Add("theScript2", script2);
if (numberOfMeasures == 4)
{
string script3 = NoteHelper.GetEasyScoreScript3("transcription3", noteNames3, measureRhythmSplit3, keySignature, false);
dict.Add("theScript3", script3);
string script4 = NoteHelper.GetEasyScoreScript3("transcription4", noteNames4, measureRhythmSplit4, keySignature, false);
dict.Add("theScript4", script4);
}
#endregion Notation
var json = Json(dict, JsonRequestBehavior.AllowGet);
return(json);
}
