/// <summary>
/// Builds a scale.
/// </summary>
/// <param name="tonic">The tonic.</param>
/// <param name="pattern">The scale pattern.</param>
/// <param name="positionInOctaveToSequenceIndex">Must have 12 elements, and is filled with
/// the 0-indexed scale position (or -1) for each position in the octave.</param>
/// <param name="noteSequence">Must have pattern.Ascent.Length elements, and is filled with
/// the notes for each scale degree.</param>
/// <param name="numAccidentals">Filled with the total number of accidentals in the built
/// scale.</param>
private static void Build(Note tonic, ScalePattern pattern,
int[] positionInOctaveToSequenceIndex, Note[] noteSequence, out int numAccidentals)
{
numAccidentals = 0;
for (int i = 0; i < 12; ++i)
{
positionInOctaveToSequenceIndex[i] = -1;
}
Pitch tonicPitch = tonic.PitchInOctave(0);
for (int i = 0; i < pattern.Ascent.Length; ++i)
{
Pitch pitch = tonicPitch + pattern.Ascent[i];
Note note;
if (pattern.Ascent.Length == 7)
{
char letter = (char)(i + (int)(tonic.Letter));
if (letter > 'G')
{
letter = (char)((int)letter - 7);
}
note = pitch.NoteWithLetter(letter);
}
else
{
note = pitch.NotePreferringSharps();
}
noteSequence[i] = note;
positionInOctaveToSequenceIndex[pitch.PositionInOctave()] = i;
}
}
private static void Build(Note root, ChordPattern pattern,
bool[] positionInOctaveToContains, Note[] noteSequence)
{
for (int i = 0; i < 12; ++i)
{
positionInOctaveToContains[i] = false;
}
Pitch rootPitch = root.PitchInOctave(0);
for (int i = 0; i < pattern.Ascent.Length; ++i)
{
Pitch pitch = rootPitch + pattern.Ascent[i];
char letter = (char)(pattern.LetterOffsets[i] + (int)(root.Letter));
while (letter > 'G')
{
letter = (char)((int)letter - 7);
}
noteSequence[i] = pitch.NoteWithLetter(letter);
positionInOctaveToContains[pitch.PositionInOctave()] = true;
}
}
private static void Build(Note root, ChordPattern pattern,
bool[] positionInOctaveToContains, Note[] noteSequence)
{
for (int i = 0; i < 12; ++i)
{
positionInOctaveToContains[i] = false;
}
Pitch rootPitch = root.PitchInOctave(0);
for (int i = 0; i < pattern.Ascent.Length; ++i)
{
Pitch pitch = rootPitch + pattern.Ascent[i];
char letter = (char)(pattern.LetterOffsets[i] + (int)(root.Letter));
while (letter > 'G')
{
letter = (char)((int)letter - 7);
}
noteSequence[i] = pitch.NoteWithLetter(letter);
positionInOctaveToContains[pitch.PositionInOctave()] = true;
}
}
string transpose(string musicKey, string targetKey, int direction, bool flat,out Midi.Pitch outpitch)
{
//convert the key to a number:
//"G8" = 8 * "8" + 7
bool black = musicKey.Contains("Sharp");
musicKey = musicKey.Replace("Sharp", "");
string scale = "CDEFGABC";
int y = int.Parse(""+musicKey[1]);
int x = scale.IndexOf(musicKey[0]);
if (flat && black) //add1 to x
x = (x + 1);
if (x == 7)
{
x %= 7;
y++;
}
int keyID = y * 7 + x;
switch(targetKey)
{
case "G":
direction = 3;
break;
case "A": direction = 2;
break;
case "B":
direction =1;
break;
}
keyID += direction;
;
y = keyID / 7;
x = keyID % 7;
string preout = "" + scale[x] + ((black)?("Sharp"):("")) +y.ToString();
string cnote = "" + preout[0];
// bool sharp = musicKey.Contains("Sharp");
if (black)
cnote += "#";
Midi.Note outnote = new Midi.Note(cnote);
outpitch = outnote.PitchInOctave(y);
return preout;
}
/// <summary>
/// Builds a scale.
/// </summary>
/// <param name="tonic">The tonic.</param>
/// <param name="pattern">The scale pattern.</param>
/// <param name="positionInOctaveToSequenceIndex">Must have 12 elements, and is filled with
/// the 0-indexed scale position (or -1) for each position in the octave.</param>
/// <param name="noteSequence">Must have pattern.Ascent.Length elements, and is filled with
/// the notes for each scale degree.</param>
/// <param name="numAccidentals">Filled with the total number of accidentals in the built
/// scale.</param>
private static void Build(Note tonic, ScalePattern pattern,
int[] positionInOctaveToSequenceIndex, Note[] noteSequence, out int numAccidentals)
{
numAccidentals = 0;
for (int i = 0; i < 12; ++i)
{
positionInOctaveToSequenceIndex[i] = -1;
}
Pitch tonicPitch = tonic.PitchInOctave(0);
for (int i = 0; i < pattern.Ascent.Length; ++i)
{
Pitch pitch = tonicPitch + pattern.Ascent[i];
Note note;
if (pattern.Ascent.Length == 7)
{
char letter = (char)(i + (int)(tonic.Letter));
if (letter > 'G')
{
letter = (char)((int)letter - 7);
}
note = pitch.NoteWithLetter(letter);
}
else
{
note = pitch.NotePreferringSharps();
}
noteSequence[i] = note;
positionInOctaveToSequenceIndex[pitch.PositionInOctave()] = i;
}
}
private void btnCreate_Click(object sender, RoutedEventArgs e) {
// scale mode?
if (!(bool)chkScaleMode.IsChecked)
currentScaleNoteIndex = 0;
// otherwise, create a cube that matches the specifications we just set
Cube cube = new NullCube(Engine.Engine.Origin, 0);
// yank values from comboboxes n shit
Note note = new Note((string)((ComboBoxItem)cmbNote.SelectedItem).Content);
int octave = int.Parse((string)((ComboBoxItem)cmbOctave.SelectedItem).Content);
ChordPattern chordPattern = Chord.Major;
ScalePattern scalePattern = Scale.Major;
switch ((string)((ComboBoxItem)cmbScale.SelectedItem).Content) {
case "Major": scalePattern = Scale.Major; break;
case "HarmonicMinor": scalePattern = Scale.HarmonicMinor; break;
case "MelodicMinorAscending": scalePattern = Scale.MelodicMinorAscending; break;
case "MelodicMinorDescending": scalePattern = Scale.MelodicMinorDescending; break;
case "NaturalMinor": scalePattern = Scale.NaturalMinor; break;
}
switch ((string)((ComboBoxItem)cmbChordType.SelectedItem).Content) {
case "Major": chordPattern = Chord.Major; break;
case "Minor": chordPattern = Chord.Minor; break;
case "Seventh": chordPattern = Chord.Seventh; break;
case "Augmented": chordPattern = Chord.Augmented; break;
case "Diminished": chordPattern = Chord.Diminished; break;
}
Scale scale = new Scale(note, scalePattern);
// scalemode translation
note = scale.NoteSequence[currentScaleNoteIndex++ % 7];
Pitch pitch = note.PitchInOctave(octave);
int chordInversion = int.Parse((string)((ComboBoxItem)cmbInversion.SelectedItem).Content);
Chord chord = new Chord(note, chordPattern, chordInversion);
// single note cube
if ((bool)Note.IsChecked) {
cube = new SingleNoteCube(Engine.Engine.Origin, _Constants.CreateHandDistance / 2.0, pitch, CurrentInstrument, App.OutputDevice, CurrentChannel);
}
if ((bool)Chord2.IsChecked) {
cube = new ChordCube(Engine.Engine.Origin, _Constants.CreateHandDistance / 2.0, chord, octave, CurrentInstrument, App.OutputDevice, CurrentChannel);
}
// give the cube a random colour
Random randomGen = new Random();
KnownColor[] names = (KnownColor[])Enum.GetValues(typeof(KnownColor));
KnownColor randomColorName = names[randomGen.Next(names.Length)];
System.Drawing.Color tempColor = System.Drawing.Color.FromKnownColor(randomColorName);
System.Windows.Media.Color randomColor = System.Windows.Media.Color.FromArgb(tempColor.A, tempColor.R, tempColor.G, tempColor.B);
cube.SolidColorBrush.Color = randomColor;
// now set the engine to create mode, and assign this as the cube to be created
App.Engine.SetCreateCube(cube);
}
