public BpmInterpreter(string[] string0)
{
for (var i = 0; i < string0.Length; i++)
{
var text = string0[i];
var array = text.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
var num = ChartParser.GetNoteFromResolution(array[0]);
var num2 = Convert.ToInt32(array[2]);
string a;
if ((a = array[1]) != null)
{
if (!(a == "TS"))
{
if (a == "B" && (BpmList.Count == 0 || BpmList[num] != num2))
{
BpmList.Add(num, num2);
}
}
else if (TsList.Count == 0 || TsList[num] != num2)
{
TsList.Add(num, num2);
}
}
}
if (!TsList.ContainsKey(0))
{
TsList.Add(0, 4);
}
}
public void TryAddIncreasesCount()
{
ITrack minutes = new Track(5);
minutes.Add(1);
Assert.AreEqual(1, minutes.Count);
}
private void PasteEvent(object frameBoxed)
{
int frame = (int)frameBoxed;
FEvent evt = Instantiate <FEvent>((FEvent)FSequenceEditor.CopyObject);
evt.hideFlags = Track.hideFlags;
Undo.RegisterCreatedObjectUndo(evt.gameObject, "Paste " + FSequenceEditor.CopyObject.name);
Undo.RecordObject(Track, string.Empty);
int evtLength = evt.Length;
int maxEvtLength;
if (Track.CanAddAt(frame, out maxEvtLength) && maxEvtLength >= evtLength)
{
int delta = frame - evt.Start;
evt.Start += delta;
evt.End += delta;
}
else
{
evt.End = frame + maxEvtLength;
evt.Start = evt.End - evtLength;
}
Undo.SetTransformParent(evt.transform, Track.transform, string.Empty);
Track.Add(evt);
}
public FEvent TryAddEvent(int t)
{
FEvent newEvt = null;
if (Track.CanAddAt(t))
{
FEvent evtAfterT = Track.GetEventAfter(t);
int newEventEndT;
if (evtAfterT == null)
{
newEventEndT = SequenceEditor.Sequence.Length;
}
else
{
newEventEndT = evtAfterT.Start;
}
newEvt = FEvent.Create(Track.GetEventType(), new FrameRange(t, newEventEndT));
Undo.RecordObject(Track, string.Empty);
Undo.RegisterCreatedObjectUndo(newEvt.gameObject, "create Event");
Track.Add(newEvt);
}
return(newEvt);
}
public void Append(Checkpoint cp)
{
Checkpoints.Add(cp);
if (finishForced)
{
return;
}
var position = positions.GetOrAdd(cp.RiderId, x => RoundPosition.FromStartTime(x, RoundStartTime));
if (position.Finished)
{
return;
}
position.Append(cp);
if (Track.Count < position.LapCount)
{
Track.Add(new List <Checkpoint>());
}
Track[position.LapCount - 1].Add(cp);
if (FinishCriteria?.HasFinished(position, GetSequence(), false) == true)
{
position.Finish();
}
rating = null;
}
private void mapControl_Click(object sender, EventArgs e)
{
if (cboxEnableLineDraw.Checked)
{
if (bingLine.Count == 0)
{
mapControl.Markers.Clear();
}
var coord = mapControl.Mouse;
bingLine.Add(coord);
mapControl.Invalidate();
lblPoints.Text = bingLine.Count.ToString();
{
// Create marker's location point
var point = coord;
var style = new MarkerStyle(8);
// Create marker instance: specify location on the map, drawing style, and label
var marker = new Marker(point, style, bingLine.Count.ToString());
// Add marker to the map
mapControl.Markers.Add(marker);
mapControl.Invalidate();
}
}
}
// public override void OnTogglePreview ()
// {
//// int currentFrame = Track.Sequence.GetCurrentFrame();
//
// base.OnTogglePreview();
//
//// if( currentFrame >= 0 )
//// SequenceEditor.SetCurrentFrame( currentFrame );
// }
public override void Render(Rect rect, float headerWidth)
{
// bool isPreviewing = _track.IsPreviewing;
base.Render(rect, headerWidth);
// if( isPreviewing != _track.IsPreviewing )
// {
// if( Event.current.alt )
// SyncWithAnimationWindow = true;
// }
switch (Event.current.type)
{
case EventType.DragUpdated:
if (rect.Contains(Event.current.mousePosition))
{
int numAnimationsDragged = FAnimationEventInspector.NumAnimationsDragAndDrop(Track.Sequence.FrameRate);
int frame = SequenceEditor.GetFrameForX(Event.current.mousePosition.x);
DragAndDrop.visualMode = numAnimationsDragged > 0 && Track.CanAddAt(frame) ? DragAndDropVisualMode.Copy : DragAndDropVisualMode.Rejected;
Event.current.Use();
}
break;
case EventType.DragPerform:
if (rect.Contains(Event.current.mousePosition))
{
AnimationClip animClip = FAnimationEventInspector.GetAnimationClipDragAndDrop(Track.Sequence.FrameRate);
if (animClip && Mathf.Approximately(animClip.frameRate, Track.Sequence.FrameRate))
{
int frame = SequenceEditor.GetFrameForX(Event.current.mousePosition.x);
int maxLength;
if (Track.CanAddAt(frame, out maxLength))
{
FPlayAnimationEvent animEvt = FEvent.Create <FPlayAnimationEvent>(new FrameRange(frame, frame + Mathf.Min(maxLength, Mathf.RoundToInt(animClip.length * animClip.frameRate))));
Track.Add(animEvt);
FAnimationEventInspector.SetAnimationClip(animEvt, animClip);
DragAndDrop.AcceptDrag();
}
}
Event.current.Use();
}
break;
}
// if( _wasPreviewing != _track.IsPreviewing )
// {
// if( _wasPreviewing )
// SequenceEditor.OnUpdateEvent.RemoveListener( OnUpdate );
// else
// SequenceEditor.OnUpdateEvent.AddListener( OnUpdate );
//
// _wasPreviewing = _track.IsPreviewing;
// }
}
/// <summary>
/// Reads a track from the provided stream.
/// </summary>
/// <param name="stream">The stream to read the track from</param>
/// <returns>The track as an object</returns>
/// <exception cref="InvalidDataException">Thrown when the track file is formatted incorrectly or corrupted.</exception>
public Track ReadTrack(Stream stream)
{
this.stream = stream;
var track = new Track();
using (reader = new BinaryReader(this.stream))
{
var realFilesize = (int)stream.Length;
if (realFilesize < 20)
{
throw new InvalidDataException("Incorrect filesize, corrupted track!");
}
var legoHeader = ReadString(12);
var trkVersion = reader.ReadUInt32();
var claimedFilesize = reader.ReadUInt32();
if (claimedFilesize != 65576)
{
throw new InvalidDataException("TRK file reports incorrect filesize!");
}
if (claimedFilesize != realFilesize)
{
throw new InvalidDataException("Incorrect filesize, corrupted track!");
}
track.size = (Track.TrackSize)reader.ReadUInt32();
track.theme = (Track.TrackTheme)reader.ReadUInt32();
track.time = (Track.TrackTime)reader.ReadUInt32();
var iters = 8 * ((int)track.size + 1);
var skip = (56 - (int)track.size * 8) * 16;
for (var z = 0; z < iters; z++)
{
for (var x = 0; x < iters; x++)
{
var element = new TrackElement();
element.mystery = reader.ReadBytes(4);
element.pos = new GridPosition(x, ReadHeight(), z);
element.SetId(reader.ReadUInt32());
element.rotation = (TrackElement.TrackRotation)reader.ReadUInt32();
track.Add(element);
}
stream.Seek(skip, SeekOrigin.Current);
}
stream.Seek(65572, SeekOrigin.Begin);
track.playable = reader.ReadUInt32() == 1;
}
return(track);
}
public StationCall(StationTrack track, Time arrival, Time departure, bool isStop)
{
Track = track ?? throw new ArgumentNullException(nameof(track));
Track.Add(this);
Arrival = arrival ?? throw new ArgumentNullException(nameof(arrival), string.Format(CultureInfo.CurrentCulture, "At {0}", track.Station));
Departure = departure ?? throw new ArgumentNullException(nameof(departure), string.Format(CultureInfo.CurrentCulture, "At {0}", track.Station));
IsStop = isStop;
Notes = new List <StationCallNote>();
}
private void button1_Click(object sender, EventArgs e)
{
DXPlayer _dxPlayer = new DXPlayer();
_dxPlayer.Owner = this;
Wave _wave = new Wave(EngineDesigner.Properties.Resources.Kick);
Track _track = new Track(_wave.WaveFormat.Channels, _wave.WaveFormat.BitsPerSample);
_track = _track.GenerateSilence(_wave.WaveTrack.SampleNumber);
Track _left = new Track(_wave.WaveFormat.Channels, _wave.WaveFormat.BitsPerSample);
for (int a = 0; a < _wave.WaveTrack.SampleNumber; a++)
{
_left.Add(0, _wave.WaveTrack[0, a]);
_left.Add(1, new Sample(16));
}
Track _right = new Track(_wave.WaveFormat.Channels, _wave.WaveFormat.BitsPerSample);
for (int a = 0; a < _wave.WaveTrack.SampleNumber; a++)
{
_right.Add(0, new Sample(16));
_right.Add(1, _wave.WaveTrack[1, a]);
}
_track.MixWith(_left, 0, false);
_track.MixWith(_right, 6000, false);
_wave.WaveTrack = _track;
SoundPatch _soundPatch = _dxPlayer.AddSoundPatch(_wave);
_soundPatch.Play(true);
}
public override void OnPostTargetMembersGUI()
{
if (NumTargets > 1)
{
return;
}
Undo.RecordObject(Track, "Track wheel add/remove.");
InspectorGUI.ToolListGUI(this,
Track.Wheels,
"Wheels",
wheel => Track.Add(wheel),
wheel => Track.Remove(wheel));
}
void InitMidiSequence()
{
// Generate midi file
midiSequence = new Sequence(Sequence.PPQ, midiTickResolution, 0, (int)MidiHelper.MidiFormat.SingleTrack);
midiTrack = midiSequence.CreateTrack();
midiTrack.Add(MetaEvent.CreateMetaEvent((int)MidiHelper.MetaEventType.SequenceOrTrackName, "Audio2Midi", 0, midiTickResolution));
midiTrack.Add(MetaEvent.CreateMetaEvent((int)MidiHelper.MetaEventType.CopyrightNotice, "*****@*****.**", 0, midiTickResolution));
midiTrack.Add(MetaEvent.CreateMetaEvent((int)MidiHelper.MetaEventType.Tempo, "" + midiBPM, 0, midiTickResolution));
midiTrack.Add(MetaEvent.CreateMetaEvent((int)MidiHelper.MetaEventType.TimeSignature, "4/4", 0, midiTickResolution));
// Convert from ticks to duration
// Midi timings are explained here
// http://sites.uci.edu/camp2014/2014/05/19/timing-in-midi-files/
// http://stackoverflow.com/questions/2038313/midi-ticks-to-actual-playback-seconds-midi-music
// The formula is 60000 / (BPM * PPQ) (milliseconds).
// Where BPM is the tempo of the track (Beats Per Minute).
// (i.e. a 120 BPM track would have a MIDI time of:
// (60000 / (120 * 192)) or 2.604 ms for 1 tick.
double timeBufferMs = ((double)bufferSize / sampleRate) * 1000;
double timeTickMs = (60000 / (double)(midiBPM * midiTickResolution));
tickMultiplier = timeBufferMs / timeTickMs;
}
public bool AddMessage(string content, User author)
{
if (TicketStatus == TicketStatus.Closed)
{
return(false);
}
Track.Add(new TrackEntry()
{
Content = content,
Author = author
});
return(true);
}
private void OnWheelSelect(GameObject selection)
{
if (selection == null)
{
Debug.LogError("Invalid TrackWheel selection - selected object is null.");
return;
}
if (selection.GetComponentInParent <RigidBody>() == null)
{
Debug.LogError("Invalid TrackWheel selection - unable to find RigidBody component.", selection);
return;
}
var createNewComponent = selection.GetComponent <TrackWheel>() == null;
if (createNewComponent)
{
Undo.RegisterCreatedObjectUndo(TrackWheel.Create(selection), "Create TrackWheel");
}
else if (Track.Contains(selection.GetComponent <TrackWheel>()))
{
Debug.Log("TrackWheel already part of Track - ignoring selection.");
return;
}
// Reconfigure TrackWheel given new or the same selection.
else
{
selection.GetComponent <TrackWheel>().Configure(selection);
}
if (!Track.Add(selection.GetComponent <TrackWheel>()))
{
Debug.LogError("Track failed to add TrackWheel instance.", Track);
if (createNewComponent)
{
Object.DestroyImmediate(selection.GetComponent <TrackWheel>());
}
return;
}
InspectorGUI.GetItemToolArrayGUIData(Track,
"Wheels",
selection.GetComponent <TrackWheel>()).Bool = true;
EditorUtility.SetDirty(Track);
}
public ActionResult Add([FromBody] Track t)
{
Track track = new Track()
{
Title = t.Title,
Duration = t.Duration,
};
if (track.Add() > 0)
{
return(Ok(new { message = "Track added." }));
}
else
{
return(Ok(new { message = "An error occurred while adding the track." }));
}
}
public void DumpReturnsReverseOrderedBalls()
{
ITrack minutes = new Track(5);
for (int i = 0; i < 5; ++i)
{
minutes.Add(i);
}
var balls = minutes.Dump();
Assert.AreEqual(5, balls.Count);
for (int i = 4; i >= 0 && balls.Count > 0; --i)
{
int ball = balls.Dequeue();
Assert.AreEqual(i, ball);
}
}
static void Main(string[] args)
{
var writer = new TrkWriter();
var track = new Track()
{
size = Track.TrackSize.Multiplayer,
theme = Track.TrackTheme.Ice,
time = Track.TrackTime.Night
};
track.Add(new TrackElement()
{
theme = track.theme, // theme is set first, because that's important for the ID.
index = 0,
rotation = 0,
pos = new GridPosition(0, 0, 0)
});
writer.WriteTrack(track, "test.trk");
}
public override void Render(Rect rect, float headerWidth)
{
base.Render(rect, headerWidth);
switch (Event.current.type)
{
case EventType.DragUpdated:
if (rect.Contains(Event.current.mousePosition))
{
int numAnimationsDragged = FAnimationEventInspector.NumAnimationsDragAndDrop(Track.Sequence.FrameRate);
int frame = SequenceEditor.GetFrameForX(Event.current.mousePosition.x);
DragAndDrop.visualMode = numAnimationsDragged > 0 && Track.CanAddAt(frame) ? DragAndDropVisualMode.Copy : DragAndDropVisualMode.Rejected;
Event.current.Use();
}
break;
case EventType.DragPerform:
if (rect.Contains(Event.current.mousePosition))
{
AnimationClip animClip = FAnimationEventInspector.GetAnimationClipDragAndDrop(Track.Sequence.FrameRate);
if (animClip && Mathf.Approximately(animClip.frameRate, Track.Sequence.FrameRate))
{
int frame = SequenceEditor.GetFrameForX(Event.current.mousePosition.x);
int maxLength;
if (Track.CanAddAt(frame, out maxLength))
{
FPlayAnimationEvent animEvt = FEvent.Create <FPlayAnimationEvent>(new FrameRange(frame, frame + Mathf.Min(maxLength, Mathf.RoundToInt(animClip.length * animClip.frameRate))));
Track.Add(animEvt);
FAnimationEventInspector.SetAnimationClip(animEvt, animClip);
DragAndDrop.AcceptDrag();
}
}
Event.current.Use();
}
break;
}
}
public SectionInterpreter(string[] string0)
{
for (var i = 0; i < string0.Length; i++)
{
var text = string0[i];
var array = text.Split(new[]
{
'=',
'"'
}, 3, StringSplitOptions.RemoveEmptyEntries);
if (array.Length == 3 && !(array[1].Trim() != "E"))
{
array[2] = array[2].TrimEnd(' ', '\t');
if (array[2].EndsWith("\""))
{
array[2] = array[2].Substring(0, array[2].Length - 1);
}
var num = ChartParser.GetNoteFromResolution(array[0].Trim());
if (array[2].StartsWith("section "))
{
SectionList.Add(num,
CultureInfo.CurrentCulture.TextInfo.ToTitleCase(array[2]
.Substring("section ".Length)
.Replace('_', ' ')));
}
else if (OtherList.ContainsKey(num))
{
OtherList[num].Add(array[2]);
}
else
{
OtherList.Add(num, new List <string>());
OtherList[num].Add(array[2]);
}
}
}
}
public QBCParser(string string_0, zzGenericNode1 class308_0, zzGenericNode1 class308_1, zzGenericNode1 class308_2)
{
string[] array = new string[]
{
"Easy",
"Medium",
"Hard",
"Expert"
};
string[] array2 = new string[]
{
"Single",
"Double"
};
ArrayPointerRootNode @class;
for (int i = 0; i < array2.Length; i++)
{
string a = array2[i];
string[] array3 = new string[]
{
"Guitar",
"Rhythm"
};
for (int j = 0; j < array3.Length; j++)
{
string text = array3[j];
string[] array4 = array;
for (int k = 0; k < array4.Length; k++)
{
string text2 = array4[k];
string text3 = (text.ToLower() + ((a == "Double") ? "coop" : "") + "_" + text2.ToLower()).Replace("guitar_", "");
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_song_" + text3));
if (@class != null && @class.method_7() is IntegerArrayNode)
{
Track<int, NotesAtOffset> class2 = new Track<int, NotesAtOffset>();
int[] array5 = @class.method_7().method_7<int>();
for (int l = 0; l < array5.Length; l += 3)
{
class2.Add(array5[l], new NotesAtOffset(array5[l + 2], array5[l + 1]));
}
this.noteList.Add(text3, class2);
}
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_" + text3 + "_star"));
if (@class != null && @class.method_7() is ListArrayNode)
{
Track<int, int[]> class3 = new Track<int, int[]>();
foreach (IntegerArrayNode current in @class.method_7().method_8<IntegerArrayNode>())
{
class3.Add(current[0], new int[]
{
current[1],
current[2]
});
}
this.spList.Add(text3, class3);
}
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_" + text3 + "_starbattlemode"));
if (@class != null && @class.method_7() is ListArrayNode)
{
Track<int, int[]> class4 = new Track<int, int[]>();
foreach (IntegerArrayNode current2 in @class.method_7().method_8<IntegerArrayNode>())
{
class4.Add(current2[0], new int[]
{
current2[1],
current2[2]
});
}
this.battleNoteList.Add(text3, class4);
}
}
}
}
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_faceoffp1"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (IntegerArrayNode current3 in @class.method_7().method_8<IntegerArrayNode>())
{
this.class228_2.Add(current3[0], current3[1]);
}
}
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_faceoffp2"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (IntegerArrayNode current4 in @class.method_7().method_8<IntegerArrayNode>())
{
this.class228_3.Add(current4[0], current4[1]);
}
}
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_bossbattlep1"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (IntegerArrayNode current5 in @class.method_7().method_8<IntegerArrayNode>())
{
this.bpmList.Add(current5[0], current5[1]);
}
}
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_bossbattlep2"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (IntegerArrayNode current6 in @class.method_7().method_8<IntegerArrayNode>())
{
this.class228_5.Add(current6[0], current6[1]);
}
}
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_timesig"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (IntegerArrayNode current7 in @class.method_7().method_8<IntegerArrayNode>())
{
this.tsList.Add(current7[0], new int[]
{
current7[1],
current7[2]
});
}
}
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_fretbars"));
if (@class != null && @class.method_7() is IntegerArrayNode)
{
this.class239_0 = new Class239<int>(@class.method_7().method_8<int>());
this.int_0 = (this.class239_0[1] - this.class239_0[0]) / 4;
try
{
Dictionary<int, string> dictionary = new Dictionary<int, string>();
@class = class308_0.method_5<ArrayPointerRootNode>(new ArrayPointerRootNode(string_0 + "_markers"));
if (class308_1 != null && @class != null && @class.method_7() is StructureArrayNode)
{
foreach (UnicodeRootNode class5 in class308_1.Nodes)
{
dictionary.Add(class5.int_0, class5.method_7());
}
using (List<StructureHeaderNode>.Enumerator enumerator9 = @class.method_7().method_8<StructureHeaderNode>().GetEnumerator())
{
while (enumerator9.MoveNext())
{
StructureHeaderNode current8 = enumerator9.Current;
this.class228_1.Add(((IntegerStructureNode)current8[0]).method_8(), dictionary[((FileTagStructureNode)current8[1]).method_9()]);
}
goto IL_7C2;
}
}
if (@class != null && @class.method_7() is StructureArrayNode)
{
foreach (StructureHeaderNode current9 in @class.method_7().method_8<StructureHeaderNode>())
{
this.class228_1.Add(((IntegerStructureNode)current9[0]).method_8(), ((UnicodeStructureNode)current9[1]).method_8());
}
}
IL_7C2:;
}
catch
{
}
try
{
if (class308_2 != null)
{
this.gh3Song_0 = new GH3Song(class308_2.method_5<StructurePointerNode>(new StructurePointerNode(string_0)));
}
return;
}
catch
{
return;
}
}
throw new Exception("Not a MID.QB!");
}
private void method_6(Track<int, int> class228_1, Track<int, int> class228_2)
{
if (class228_2 == null)
{
return;
}
foreach (int current in class228_2.Keys)
{
int num = this.calculateOffset(current);
int value = (class228_2[current] == 0) ? 1 : (this.calculateOffset(current + class228_2[current]) - num);
class228_1.Add(num, value);
}
}
public ChartParser method_2(Gh3Song gh3Song1)
{
var @class = new ChartParser(Gh3Song0);
@class.Constant480 = Int1;
if (gh3Song1 != null)
{
@class.Gh3SongInfo.vmethod_0(gh3Song1);
}
_class2286 = new Track <int, int>();
if (FretbarList != null)
{
var value = FretbarList[0];
FretbarList[0] = 0;
var num = 0;
for (var i = 1; i < FretbarList.Count; i++)
{
var num2 = FretbarList[i] - FretbarList[i - 1];
var num3 = Convert.ToInt32(60000000.0 / num2);
if (num3 != num)
{
@class.BpmInterpreter.BpmList.Add((i - 1) * Int1, num3);
num = num3;
}
_class2286.Add(FretbarList[i - 1], num2);
}
FretbarList[0] = value;
@class.SectionInterpreter.OtherList.Add(method_0(FretbarList[FretbarList.Count - 1]), new List <string>(
new[]
{
"end"
}));
foreach (var current in Class2281.Keys)
{
@class.SectionInterpreter.SectionList.Add(method_0(current), Class2281[current]);
}
foreach (var current2 in TsList.Keys)
{
@class.BpmInterpreter.TsList.Add(method_0(current2), TsList[current2][0]);
}
var class2 = new Track <int, int>();
var class3 = new Track <int, int>();
foreach (var current3 in Class2282.Keys)
{
var num4 = method_0(current3);
var num5 = method_0(current3 + Class2282[current3] - Int0) - num4;
class2.Add(num4, (num5 <= Int1 / 4) ? 0 : num5);
}
foreach (var current4 in Class2283.Keys)
{
var num4 = method_0(current4);
var num5 = method_0(current4 + Class2283[current4] - Int0) - num4;
class3.Add(num4, (num5 <= Int1 / 4) ? 0 : num5);
}
var class4 = new Track <int, int>();
var class5 = new Track <int, int>();
foreach (var current5 in BpmList.Keys)
{
var num4 = method_0(current5);
var num5 = method_0(current5 + BpmList[current5] - Int0) - num4;
class4.Add(num4, (num5 <= Int1 / 4) ? 0 : num5);
}
foreach (var current6 in Class2285.Keys)
{
var num4 = method_0(current6);
var num5 = method_0(current6 + Class2285[current6] - Int0) - num4;
class5.Add(num4, (num5 <= Int1 / 4) ? 0 : num5);
}
string[] array =
{
"Easy",
"Medium",
"Hard",
"Expert"
};
string[] array2 =
{
"Single",
"Double"
};
for (var j = 0; j < array2.Length; j++)
{
var text = array2[j];
string[] array3 =
{
"Guitar",
"Rhythm"
};
for (var k = 0; k < array3.Length; k++)
{
var text2 = array3[k];
var array4 = array;
for (var l = 0; l < array4.Length; l++)
{
var text3 = array4[l];
var key = (text2.ToLower() + ((text == "Double") ? "coop" : "") + "_" + text3.ToLower())
.Replace("guitar_", "");
if (NoteList.ContainsKey(key))
{
var class6 = new NoteEventInterpreter();
var class7 = NoteList[key];
foreach (var current7 in class7.Keys)
{
var num4 = method_0(current7);
var num5 = method_0(current7 + class7[current7].SustainLength - Int0) - num4;
class6.NoteList.Add(num4,
new NotesAtOffset(class7[current7].NoteValues, (num5 <= Int1 / 4) ? 0 : num5));
}
class6.AlwaysTrue = false;
if (SpList.ContainsKey(key))
{
var class8 = SpList[key];
foreach (var current8 in class8.Keys)
{
var num4 = method_0(current8);
var num5 = method_0(current8 + class8[current8][0] - Int0) - num4;
class6.Class2281.Add(num4, (num5 <= Int1 / 4) ? 0 : num5);
}
}
if (BattleNoteList.ContainsKey(key))
{
var class9 = SpList[key];
foreach (var current9 in class9.Keys)
{
var num4 = method_0(current9);
var num5 = method_0(current9 + class9[current9][0] - Int0) - num4;
class6.Class2284.Add(num4, (num5 <= Int1 / 4) ? 0 : num5);
}
}
class6.Class2282 = class2;
class6.Class2283 = class3;
class6.Class2285 = class4;
class6.Class2286 = class5;
@class.DifficultyWithNotes.Add(text3 + text + text2, class6);
}
}
}
}
_class2286.Clear();
_class2286 = null;
return(@class);
}
return(null);
}
public QbcParser(string fileName)
{
var list = new List <string>();
var streamReader = File.OpenText(fileName);
string text = null;
string currentLine;
while ((currentLine = streamReader.ReadLine()) != null)
{
if (currentLine.StartsWith("["))
{
text = currentLine.Split(new[]
{
'[',
']'
}, StringSplitOptions.RemoveEmptyEntries)[0];
}
else if (!currentLine.Equals("{"))
{
if (currentLine.Equals("}"))
{
string key;
if ((key = text) == null)
{
goto IL_8AA;
}
if (Class369.Dictionary0 == null)
{
Class369.Dictionary0 = new Dictionary <string, int>(8)
{
{
"Song",
0
},
{
"SyncTrack",
1
},
{
"FretBars",
2
},
{
"Events",
3
},
{
"FaceOffP1",
4
},
{
"FaceOffP2",
5
},
{
"BossBattleP1",
6
},
{
"BossBattleP2",
7
}
};
}
int num;
if (Class369.Dictionary0.TryGetValue(key, out num))
{
switch (num)
{
case 0:
Gh3Song0.Editable = true;
using (var enumerator = list.GetEnumerator())
{
while (enumerator.MoveNext())
{
var current = enumerator.Current;
var array = current.Split(new[]
{
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
if (array.Length > 1)
{
var text3 = array[0].Trim().ToLower();
var text4 = array[1].Trim().Replace("\"", "");
string key2;
switch (key2 = text3)
{
case "name":
Gh3Song0.Title = text4;
break;
case "artist":
Gh3Song0.Artist = text4;
break;
case "year":
Gh3Song0.Year = text4;
break;
case "player2":
Gh3Song0.NotBass = !text4.ToLower().Equals("bass");
break;
case "artisttext":
if (text4.Equals("by"))
{
Gh3Song0.ArtistText = true;
}
else if (text4.Equals("as made famous by"))
{
Gh3Song0.ArtistText = false;
}
else
{
Gh3Song0.ArtistText = text4;
}
break;
case "offset":
Gh3Song0.InputOffset =
(Gh3Song0.GemOffset = Convert.ToInt32(
Convert.ToDouble(text4) * -1000.0));
break;
case "singer":
Gh3Song0.Singer = text4;
break;
case "bassist":
Gh3Song0.Bassist = text4;
break;
case "boss":
Gh3Song0.Boss = text4;
break;
case "countoff":
Gh3Song0.Countoff = text4;
break;
case "guitarvol":
Gh3Song0.GuitarVol = Convert.ToSingle(text4);
break;
case "bandvol":
Gh3Song0.BandVol = Convert.ToSingle(text4);
break;
case "hopo":
Gh3Song0.HammerOn = Convert.ToSingle(text4);
break;
case "originalartist":
Gh3Song0.OriginalArtist = text4.Equals("true");
break;
case "resolution":
Int1 = Convert.ToInt32(text4);
break;
}
}
}
goto IL_A3C;
}
goto IL_514;
case 1:
goto IL_514;
case 2:
goto IL_5AE;
case 3:
using (var enumerator2 = list.GetEnumerator())
{
while (enumerator2.MoveNext())
{
var current2 = enumerator2.Current;
var array2 = current2.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a;
if ((a = array2[1]) != null && a == "S")
{
Class2281.Add(Convert.ToInt32(array2[0]), array2[2]);
}
}
goto IL_A3C;
}
break;
case 4:
break;
case 5:
goto IL_72D;
case 6:
goto IL_7AC;
case 7:
goto IL_82B;
default:
goto IL_8AA;
}
using (var enumerator3 = list.GetEnumerator())
{
while (enumerator3.MoveNext())
{
var current3 = enumerator3.Current;
var array3 = current3.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a2;
if ((a2 = array3[1]) != null && a2 == "F")
{
Class2282.Add(Convert.ToInt32(array3[0]), Convert.ToInt32(array3[2]));
}
}
goto IL_A3C;
}
goto IL_72D;
IL_5AE:
FretbarList = new Fretbar <int>();
foreach (var current4 in list)
{
FretbarList.method_1(Convert.ToInt32(current4.Trim(' ', '\t', '=')));
}
Int0 = (FretbarList[1] - FretbarList[0]) / 4;
goto IL_A3C;
IL_514:
using (var enumerator5 = list.GetEnumerator())
{
while (enumerator5.MoveNext())
{
var current5 = enumerator5.Current;
var array4 = current5.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a3;
if ((a3 = array4[1]) != null && a3 == "TS")
{
TsList.Add(Convert.ToInt32(array4[0]), new[]
{
Convert.ToInt32(array4[2]),
Convert.ToInt32(array4[3])
});
}
}
goto IL_A3C;
}
goto IL_5AE;
IL_72D:
using (var enumerator6 = list.GetEnumerator())
{
while (enumerator6.MoveNext())
{
var current6 = enumerator6.Current;
var array5 = current6.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a4;
if ((a4 = array5[1]) != null && a4 == "F")
{
Class2283.Add(Convert.ToInt32(array5[0]), Convert.ToInt32(array5[2]));
}
}
goto IL_A3C;
}
IL_7AC:
using (var enumerator7 = list.GetEnumerator())
{
while (enumerator7.MoveNext())
{
var current7 = enumerator7.Current;
var array6 = current7.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a5;
if ((a5 = array6[1]) != null && a5 == "B")
{
BpmList.Add(Convert.ToInt32(array6[0]), Convert.ToInt32(array6[2]));
}
}
goto IL_A3C;
}
IL_82B:
using (var enumerator8 = list.GetEnumerator())
{
while (enumerator8.MoveNext())
{
var current8 = enumerator8.Current;
var array7 = current8.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a6;
if ((a6 = array7[1]) != null && a6 == "B")
{
Class2285.Add(Convert.ToInt32(array7[0]), Convert.ToInt32(array7[2]));
}
}
goto IL_A3C;
}
goto IL_8AA;
}
goto IL_8AA;
IL_A3C:
list.Clear();
continue;
IL_8AA:
text = text.ToLower();
if (!NoteList.ContainsKey(text))
{
var noteList = new Track <int, NotesAtOffset>();
var spList = new Track <int, int[]>();
var battleNote = new Track <int, int[]>();
foreach (var current9 in list)
{
var array8 = current9.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a7;
if ((a7 = array8[1]) != null)
{
if (!(a7 == "N"))
{
if (!(a7 == "S"))
{
if (a7 == "B")
{
battleNote.Add(Convert.ToInt32(array8[0]), new[]
{
Convert.ToInt32(array8[3]),
Convert.ToInt32(array8[2])
});
}
}
else
{
spList.Add(Convert.ToInt32(array8[0]), new[]
{
Convert.ToInt32(array8[3]),
Convert.ToInt32(array8[2])
});
}
}
else
{
noteList.Add(Convert.ToInt32(array8[0]),
new NotesAtOffset(Convert.ToInt32(array8[2]), Convert.ToInt32(array8[3])));
}
}
}
NoteList.Add(text, noteList);
SpList.Add(text, spList);
BattleNoteList.Add(text, battleNote);
}
goto IL_A3C;
}
if (!currentLine.Equals(""))
{
list.Add(currentLine);
}
}
}
streamReader.Close();
}
public QbcParser(string string0, ZzGenericNode1 class3080, ZzGenericNode1 class3081, ZzGenericNode1 class3082)
{
string[] array =
{
"Easy",
"Medium",
"Hard",
"Expert"
};
string[] array2 =
{
"Single",
"Double"
};
ArrayPointerRootNode @class;
for (var i = 0; i < array2.Length; i++)
{
var a = array2[i];
string[] array3 =
{
"Guitar",
"Rhythm"
};
for (var j = 0; j < array3.Length; j++)
{
var text = array3[j];
var array4 = array;
for (var k = 0; k < array4.Length; k++)
{
var text2 = array4[k];
var text3 =
(text.ToLower() + ((a == "Double") ? "coop" : "") + "_" + text2.ToLower())
.Replace("guitar_", "");
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_song_" + text3));
if (@class != null && @class.method_7() is IntegerArrayNode)
{
var class2 = new Track <int, NotesAtOffset>();
var array5 = @class.method_7().method_7 <int>();
for (var l = 0; l < array5.Length; l += 3)
{
class2.Add(array5[l], new NotesAtOffset(array5[l + 2], array5[l + 1]));
}
NoteList.Add(text3, class2);
}
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_" + text3 + "_star"));
if (@class != null && @class.method_7() is ListArrayNode)
{
var class3 = new Track <int, int[]>();
foreach (var current in @class.method_7().method_8 <IntegerArrayNode>())
{
class3.Add(current[0], new[]
{
current[1],
current[2]
});
}
SpList.Add(text3, class3);
}
@class = class3080.method_5(
new ArrayPointerRootNode(string0 + "_" + text3 + "_starbattlemode"));
if (@class != null && @class.method_7() is ListArrayNode)
{
var class4 = new Track <int, int[]>();
foreach (var current2 in @class.method_7().method_8 <IntegerArrayNode>())
{
class4.Add(current2[0], new[]
{
current2[1],
current2[2]
});
}
BattleNoteList.Add(text3, class4);
}
}
}
}
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_faceoffp1"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (var current3 in @class.method_7().method_8 <IntegerArrayNode>())
{
Class2282.Add(current3[0], current3[1]);
}
}
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_faceoffp2"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (var current4 in @class.method_7().method_8 <IntegerArrayNode>())
{
Class2283.Add(current4[0], current4[1]);
}
}
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_bossbattlep1"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (var current5 in @class.method_7().method_8 <IntegerArrayNode>())
{
BpmList.Add(current5[0], current5[1]);
}
}
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_bossbattlep2"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (var current6 in @class.method_7().method_8 <IntegerArrayNode>())
{
Class2285.Add(current6[0], current6[1]);
}
}
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_timesig"));
if (@class != null && @class.method_7() is ListArrayNode)
{
foreach (var current7 in @class.method_7().method_8 <IntegerArrayNode>())
{
TsList.Add(current7[0], new[]
{
current7[1],
current7[2]
});
}
}
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_fretbars"));
if (@class != null && @class.method_7() is IntegerArrayNode)
{
FretbarList = new Fretbar <int>(@class.method_7().method_8 <int>());
Int0 = (FretbarList[1] - FretbarList[0]) / 4;
try
{
var dictionary = new Dictionary <int, string>();
@class = class3080.method_5(new ArrayPointerRootNode(string0 + "_markers"));
if (class3081 != null && @class != null && @class.method_7() is StructureArrayNode)
{
foreach (UnicodeRootNode class5 in class3081.Nodes)
{
dictionary.Add(class5.Int0, class5.method_7());
}
using (var enumerator9 = @class.method_7().method_8 <StructureHeaderNode>().GetEnumerator())
{
while (enumerator9.MoveNext())
{
var current8 = enumerator9.Current;
Class2281.Add(((IntegerStructureNode)current8[0]).method_8(),
dictionary[((FileTagStructureNode)current8[1]).method_9()]);
}
goto IL_7C2;
}
}
if (@class != null && @class.method_7() is StructureArrayNode)
{
foreach (var current9 in @class.method_7().method_8 <StructureHeaderNode>())
{
Class2281.Add(((IntegerStructureNode)current9[0]).method_8(),
((UnicodeStructureNode)current9[1]).method_8());
}
}
IL_7C2:
;
}
catch
{
}
try
{
if (class3082 != null)
{
Gh3Song0 = new Gh3Song(class3082.method_5(new StructurePointerNode(string0)));
}
return;
}
catch
{
return;
}
}
throw new Exception("Not a MID.QB!");
}
private void backgroundWorker1_DoWork(object sender, DoWorkEventArgs e)
{
BackgroundWorker _backgroundWorker = (BackgroundWorker)sender;
BackgroundWorkerArgument _backgroundWorkerArgument = (BackgroundWorkerArgument)e.Argument;
// t_rotacije = (60 / RPM) s
// t_cikla = t_rotacije * [št rotacij za ciker] s
// samplov/cikel = t_cikla * SamplesPerSecond
Wave _wave = new Wave(Properties.Resources.Kick);
double _rotationTime_s = 60d / _backgroundWorkerArgument.RPM; //_rotationTime_s *= 2;
double _cycleTime_s = _rotationTime_s * _backgroundWorkerArgument.Engine.RevolutionsToCompleteCombinedCycle;
double _samplesPerCycle = _cycleTime_s * (double)_wave.WaveFormat.SamplesPerSecond;
int _strokes = _backgroundWorkerArgument.Engine.RevolutionsToCompleteCombinedCycle * 2; //po 2 stroka za eno rotacijo
//dobimo koliko dolg wave lahko uporabimo
int _samplesPerStroke = (int)(_samplesPerCycle / (double)_strokes);
double _samplesPerDeg = _samplesPerStroke / 180d;
#region "Cancelled?"
if (_backgroundWorker.CancellationPending)
{
e.Cancel = true;
return;
}
#endregion "Cancelled?"
//dobimo zvok za 1 combustion stroke (trim je pomemben, ker wave ne sme biti daljši ali krajši od stroka!)
_wave.WaveTrack.Trim(_samplesPerStroke);
if (_wave.WaveTrack.SampleNumber < _samplesPerStroke)
{
_wave.WaveTrack.AddTo(
_wave.WaveTrack.GenerateSilence(_samplesPerStroke - _wave.WaveTrack.SampleNumber));
}
#region "Cancelled?"
if (_backgroundWorker.CancellationPending)
{
e.Cancel = true;
return;
}
#endregion "Cancelled?"
//zgradimo track za cel engine
Track _engineTrack = new Track(_wave.WaveTrack.ChannelNumer, _wave.WaveTrack.BitsPerSample);
//v začetku je tišina; gor bomo miksali cilindre
_engineTrack.AddTo(_engineTrack.GenerateSilence((int)_samplesPerCycle));
//dobimo naklone
List <double> _tilts = new List <double>();
foreach (PositionedCylinder _positionedCylinder in _backgroundWorkerArgument.Engine.PositionedCylinders)
{
double _double = Mathematics.GetAbsoluteAngle_deg(_positionedCylinder.Tilt_deg);
if (!_tilts.Contains(_double))
{
_tilts.Add(_double);
}
}
//dobimo tracke po naklonih
Dictionary <double, Track> _tracks = new Dictionary <double, Track>(); //naklon, track za naklon
foreach (double _tilt in _tilts)
{
Track _totalTrackPerTilt = new Track(_wave.WaveTrack.ChannelNumer, _wave.WaveTrack.BitsPerSample);
//v začetku je tišina; gor bomo miksali cilinder
_totalTrackPerTilt.AddTo(_totalTrackPerTilt.GenerateSilence((int)_samplesPerCycle));
#region "Cancelled?"
if (_backgroundWorker.CancellationPending)
{
e.Cancel = true;
return;
}
#endregion "Cancelled?"
#region "dobimo tracke od cilindrov"
foreach (PositionedCylinder _positionedCylinder in _backgroundWorkerArgument.Engine.PositionedCylinders)
{
if (_positionedCylinder.Tilt_deg == _tilt)
{
Track _track = new Track(_wave.WaveFormat.Channels, _wave.WaveFormat.BitsPerSample);
foreach (Stroke _stroke in _positionedCylinder.Cycle.Strokes)
{
if ((_stroke.Equals(Stroke.Combustion)) ||
(_stroke.Equals(Stroke.CombustionExhaust)))
{
_track.AddTo(_wave.WaveTrack);
}
else
{
_track.AddTo(_wave.WaveTrack.GenerateSilence(_samplesPerStroke));
}
#region "Cancelled?"
if (_backgroundWorker.CancellationPending)
{
e.Cancel = true;
return;
}
#endregion "Cancelled?"
}
//izračunamo na katerem samplu se začne miksanje za ta cilinder
int _mixStartSample = (int)(_positionedCylinder.FiringAngle_deg * _samplesPerDeg);
//zmiksamo z ostankom
Track _return = _totalTrackPerTilt.MixWithReturn(_track, _mixStartSample);
//če je kaj ostalo, damo na začetek (za tiste takte, ki se mogoče ne bi končali v ciklu)
if ((_return != null) &&
(_return.SampleNumber > 0))
{
_totalTrackPerTilt.MixWith(_return, 0, false);
//sprostimo, ker žre dosti rama
_return = null;
}
//sprostimo, ker žre dosti rama
_track = null;
GC.Collect();
#region "Cancelled?"
if (_backgroundWorker.CancellationPending)
{
e.Cancel = true;
return;
}
#endregion "Cancelled?"
}
}
#endregion "dobimo tracke od cilindrov"
_tracks.Add(_tilt, _totalTrackPerTilt);
}
//če imamo V motor ali boxer, računamo, da gre vsak bank v svoj auspuh
if (_tilts.Count == 2)
{
Track _left = new Track(_wave.WaveFormat.Channels, _wave.WaveFormat.BitsPerSample);
for (int a = 0; a < _tracks[_tilts[0]].SampleNumber; a++)
{
_left.Add(0, _tracks[_tilts[0]][0, a]);
_left.Add(1, new Sample(16));
}
Track _right = new Track(_wave.WaveFormat.Channels, _wave.WaveFormat.BitsPerSample);
for (int a = 0; a < _tracks[_tilts[1]].SampleNumber; a++)
{
_right.Add(0, new Sample(16));
_right.Add(1, _tracks[_tilts[1]][1, a]);
}
_engineTrack.MixWith(_left, 0, false);
_engineTrack.MixWith(_right, 0, false);
}
else
{
foreach (Track _track in _tracks.Values)
{
_engineTrack.MixWith(_track, 0, false);
}
}
//damo spet v wave
_wave.WaveTrack = _engineTrack;
//sprostimo, ker žre dosti rama
_engineTrack = null;
GC.Collect();
e.Result = _wave;
}
/// <summary>
/// Записать новую точку в список пройденного пути
/// </summary>
public static void AddTrack()
{
Track.Add(new Dot(Snake.Snake_));
}
public void AddPart(Route route)
{
Track.Add(route);
}
static void Main(string[] args)
{
string[] inputs;
bool initializing = true;
Point prevCheckPoint = new Point(0, 0);
Point myPrevLoc = new Point(0, 0);
Point opPrevLoc = new Point(0, 0);
int prevDist = 0;
int prevAngle = 0;
int velocity = 0;
int opVelocity = 0;
State state = State.Approach;
bool boostAvailable = true;
Track track = new Track();
string msg = "";
// game loop
while (true)
{
inputs = Console.ReadLine().Split(' ');
Point myLoc = new Point(int.Parse(inputs[0]), int.Parse(inputs[1]));
Point checkpoint = new Point(int.Parse(inputs[2]), int.Parse(inputs[3]));
int dist = int.Parse(inputs[4]); // distance to the next checkpoint
int angle = int.Parse(inputs[5]); // angle between your pod orientation and the direction of the next checkpoint
inputs = Console.ReadLine().Split(' ');
Point opLoc = new Point(int.Parse(inputs[0]), int.Parse(inputs[1]));
if (initializing)
{
initializing = false;
myPrevLoc = new Point(myLoc);
prevCheckPoint = new Point(checkpoint);
prevDist = dist;
prevAngle = angle;
opPrevLoc = opLoc;
track.Add(myLoc);
track.Add(checkpoint);
}
velocity = Util.Distance(myPrevLoc, myLoc);
opVelocity = Util.Distance(opPrevLoc, opLoc);
Console.Error.WriteLine("State: {2}; Dist: {0}; Angle: {1}", dist, angle, state);
Console.Error.WriteLine(
"My:: Loc {0}; Velocity: {1}; Op:: Loc {2}; Velocity: {3};",
myLoc, velocity, opLoc, opVelocity);
if (checkpoint != prevCheckPoint)
{
state = State.Reorient;
track.Add(checkpoint);
Console.Error.WriteLine("Reorienting to CheckPoint: {0}", checkpoint);
}
double maxThrust = 100;
if (state == State.Reorient)
{
if (Math.Abs(angle) < 25)
{
state = State.Approach;
}
else
{
maxThrust = 95;
if (dist < 3000)
{
maxThrust = 90;
}
}
}
double adjustThrust = 0;
if (state == State.Approach)
{
// we missed the checkpoint
if (dist - prevDist > 0 && Math.Abs(angle) > 5)
{
adjustThrust = maxThrust * .9;
Console.Error.WriteLine("Missed Checkpoint");
}
else if (dist < 2500)
{
if (track.IsComplete)
{
Point nextCP = track.Next(checkpoint);
double nextAngle = Math.Abs(Util.Angle(myLoc, nextCP));
int nextDist = Util.Distance(checkpoint, nextCP);
Console.Error.WriteLine("Next CP:: {0}; Dist: {1}; Angle: {2}", nextCP, nextDist, nextAngle);
if (nextAngle > 90)
{
adjustThrust = maxThrust * .25;
}
else if (nextAngle > 45)
{
adjustThrust = maxThrust * .10;
}
if (nextDist < 3000 && velocity > 500)
{
adjustThrust *= 2.5;
}
}
else
{
adjustThrust = maxThrust * .10;
}
if (Math.Abs(angle) > Math.Abs(prevAngle))
{
maxThrust *= .75;
}
}
}
else if (state == State.Reorient)
{
int absAngle = Math.Abs(angle);
if (absAngle > 90)
{
if (dist < 3000 && velocity > 400)
{
adjustThrust = maxThrust * .75;
}
else
{
adjustThrust = maxThrust * .5;
}
}
else
{
if (dist < 3000 && velocity > 400)
{
adjustThrust = absAngle;
}
else
{
adjustThrust = absAngle * .5;
}
}
}
Console.Error.WriteLine("MaxThrust: {0}; AdjustThrust: {1}", maxThrust, adjustThrust);
string thrust = ((int)Math.Ceiling(Math.Max(maxThrust * .1, (maxThrust - adjustThrust)))).ToString();
if (boostAvailable && thrust == "100" && dist > 3000)
{
thrust = "BOOST";
boostAvailable = false;
}
Console.WriteLine(checkpoint + " " + thrust + msg);
myPrevLoc = new Point(myLoc);
prevCheckPoint = new Point(checkpoint);
prevDist = dist;
prevAngle = angle;
opPrevLoc = opLoc;
}
}
public NoteEventInterpreter(string[] stringImported, int constant480)
{
if (!(AlwaysTrue = (stringImported.Length == 0))) //If string is empty
{
//Cycles through the string array imported (All notes/SP)
for (var i = 0; i < stringImported.Length; i++)
{
var currentString = stringImported[i];
/*
* Indexes:
* 0=Offset
* 1=Event Type
* 2=Note Value
* 3=Sustain Length
*/
var notesEventsArray = currentString.Split(new[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
var offset = ChartParser.GetNoteFromResolution(notesEventsArray[0]);
string eventType;
if ((eventType = notesEventsArray[1]) != null)
{
if (!(eventType == "N"))
{
if (!(eventType == "S"))
{
if (eventType == "E")
{
//Interprets Events
if (EventList.ContainsKey(offset))
{
_currentEventLine = notesEventsArray[2];
for (var j = 3; j < notesEventsArray.Length; j++)
{
_currentEventLine = _currentEventLine + " " + notesEventsArray[j];
}
EventList[offset].Add(_currentEventLine);
}
else
{
_currentEventLine = notesEventsArray[2];
for (var k = 3; k < notesEventsArray.Length; k++)
{
_currentEventLine = _currentEventLine + " " + notesEventsArray[k];
}
EventList.Add(offset, new List <string>());
EventList[offset].Add(_currentEventLine);
}
}
}
//Interprets Starpower
else
{
switch (Convert.ToInt32(notesEventsArray[2]))
{
case 0:
if (!Class2282.ContainsKey(offset))
{
Class2282.Add(offset,
ChartParser.GetNoteFromResolution(notesEventsArray[3]));
}
break;
case 1:
if (!Class2283.ContainsKey(offset))
{
Class2283.Add(offset,
ChartParser.GetNoteFromResolution(notesEventsArray[3]));
}
break;
case 2:
if (!Class2281.ContainsKey(offset))
{
Class2281.Add(offset,
ChartParser.GetNoteFromResolution(notesEventsArray[3]));
}
break;
case 3:
if (!Class2284.ContainsKey(offset))
{
Class2284.Add(offset,
ChartParser.GetNoteFromResolution(notesEventsArray[3]));
}
break;
case 4:
if (!Class2285.ContainsKey(offset))
{
Class2285.Add(offset,
ChartParser.GetNoteFromResolution(notesEventsArray[3]));
}
break;
case 5:
if (!Class2286.ContainsKey(offset))
{
Class2286.Add(offset,
ChartParser.GetNoteFromResolution(notesEventsArray[3]));
}
break;
}
}
}
//Interprets Notes
/*
* Indexes:
* 0=Offset
* 1=Event Type
* 2=Note Value
* 3=Sustain Length
*/
else
{
var notes = new bool[32];
var sustainLength = ChartParser.GetNoteFromResolution(notesEventsArray[3]);
if (sustainLength <= constant480 / 4)
{
sustainLength = 0;
}
if (!NoteList.ContainsKey(offset))
{
NoteList.Add(offset, new NotesAtOffset(notes, sustainLength));
}
else
{
var currentSustainLength = NoteList[offset].SustainLength;
//Updates sustain length
if (currentSustainLength < sustainLength)
{
NoteList[offset].SustainLength = sustainLength;
}
}
var note = Convert.ToInt32(notesEventsArray[2]);
NoteList[offset].NoteValues[note] = true;
}
}
}
}
}
/// <summary>
/// Get the MIDI Sequence found in this input stream.
/// <see cref="gnu.sound.midi.spi.MidiFileReader#GetSequence(Stream)"/>
/// </summary>
public override Sequence GetSequence(Stream stream)
{
// Good midi spec:
// http://www.somascape.org/midi/tech/mfile.html
// http://www.ccarh.org/courses/253/handout/smf/
var din = new MidiDataInputStream(stream);
var mff = (ExtendedMidiFileFormat)GetMidiFileFormat(din.BaseStream);
var seq = new Sequence(mff.DivisionType, mff.Resolution, 0, mff.MidiFileType);
int ntracks = mff.NumberOfTracks;
while (ntracks-- > 0)
{
Track track = seq.CreateTrack();
int Mtrk = din.ReadInt32();
if (Mtrk != 0x4D54726B) // "MTrk"
{
throw new InvalidMidiDataException("Invalid MIDI track header.");
}
int length = din.ReadInt32();
int runningStatus = -1;
int click = 0;
// Set this to true when we've hit an End of Track meta event.
bool done = false;
// Read all events.
while (!done)
{
MidiMessage mm;
int deltaTime = din.ReadVariableLengthInt();
click += deltaTime;
// in Java bytes are signed (-128, +127)
// where in C# it's not (0, 255).
int statusByte = din.ReadByte();
if (statusByte < (int)MidiHelper.MidiEventType.SystemExclusive)
{
ShortMessage shortMessage;
switch (statusByte & 0xF0)
{
case (int)MidiHelper.MidiEventType.NoteOff:
case (int)MidiHelper.MidiEventType.NoteOn:
case (int)MidiHelper.MidiEventType.AfterTouchPoly:
case (int)MidiHelper.MidiEventType.ControlChange:
case (int)MidiHelper.MidiEventType.PitchBend:
case (int)MidiHelper.MidiEventType.SongPosition:
shortMessage = new ShortMessage();
shortMessage.SetMessage(statusByte, din.ReadByte(), din.ReadByte());
runningStatus = statusByte;
break;
case (int)MidiHelper.MidiEventType.ProgramChange:
case (int)MidiHelper.MidiEventType.AfterTouchChannel:
case (int)MidiHelper.MidiEventType.SongSelect:
case (int)MidiHelper.MidiEventType.BusSelect:
shortMessage = new ShortMessage();
shortMessage.SetMessage(statusByte, din.ReadByte(), 0);
runningStatus = statusByte;
break;
case (int)MidiHelper.MidiEventType.TuneRequest:
case (int)MidiHelper.MidiEventType.EndOfExclusive:
case (int)MidiHelper.MidiEventType.Clock:
case (int)MidiHelper.MidiEventType.Start:
case (int)MidiHelper.MidiEventType.Continue:
case (int)MidiHelper.MidiEventType.Stop:
case (int)MidiHelper.MidiEventType.ActiveSensing:
case (int)MidiHelper.MidiEventType.SystemReset:
shortMessage = new ShortMessage();
shortMessage.SetMessage(statusByte, 0, 0);
runningStatus = statusByte;
break;
default:
if (runningStatus != -1)
{
switch (runningStatus & 0xF0)
{
case (int)MidiHelper.MidiEventType.NoteOff:
case (int)MidiHelper.MidiEventType.NoteOn:
case (int)MidiHelper.MidiEventType.AfterTouchPoly:
case (int)MidiHelper.MidiEventType.ControlChange:
case (int)MidiHelper.MidiEventType.PitchBend:
case (int)MidiHelper.MidiEventType.SongPosition:
shortMessage = new ShortMessage();
shortMessage.SetMessage(runningStatus, statusByte, din.ReadByte());
break;
case (int)MidiHelper.MidiEventType.ProgramChange:
case (int)MidiHelper.MidiEventType.AfterTouchChannel:
case (int)MidiHelper.MidiEventType.SongSelect:
case (int)MidiHelper.MidiEventType.BusSelect:
shortMessage = new ShortMessage();
shortMessage.SetMessage(runningStatus, statusByte, 0);
continue;
case (int)MidiHelper.MidiEventType.TuneRequest:
case (int)MidiHelper.MidiEventType.EndOfExclusive:
case (int)MidiHelper.MidiEventType.Clock:
case (int)MidiHelper.MidiEventType.Start:
case (int)MidiHelper.MidiEventType.Continue:
case (int)MidiHelper.MidiEventType.Stop:
case (int)MidiHelper.MidiEventType.ActiveSensing:
case (int)MidiHelper.MidiEventType.SystemReset:
shortMessage = new ShortMessage();
shortMessage.SetMessage(runningStatus, 0, 0);
continue;
default:
throw new InvalidMidiDataException("Invalid Short MIDI Event: " + statusByte);
}
}
else
{
throw new InvalidMidiDataException("Invalid Short MIDI Event: " + statusByte);
}
break;
}
mm = shortMessage;
}
else if (statusByte == (int)MidiHelper.MidiEventType.SystemExclusive ||
statusByte == (int)MidiHelper.MidiEventType.EndOfExclusive)
{
// System Exclusive event
int sysexLength = din.ReadVariableLengthInt();
var sysexData = din.ReadBytes(sysexLength);
var sysexMessage = new SysexMessage();
sysexMessage.SetMessage(statusByte, sysexData, sysexLength);
mm = sysexMessage;
runningStatus = -1;
}
else if (statusByte == (int)MidiHelper.META)
{
// Meta Message
byte metaType = din.ReadByte();
int metaLength = din.ReadVariableLengthInt();
var metaData = din.ReadBytes(metaLength);
var metaMessage = new MetaMessage();
metaMessage.SetMessage(metaType, metaData, metaLength);
mm = metaMessage;
// End of Track
if (metaType == (byte)MidiHelper.MetaEventType.EndOfTrack)
{
done = true;
}
runningStatus = -1;
}
else
{
throw new InvalidMidiDataException("Invalid status byte: " + statusByte);
}
track.Add(new MidiEvent(mm, click));
}
}
return(seq);
}
public ChartParser method_2(GH3Song gh3Song_1)
{
ChartParser @class = new ChartParser(this.gh3Song_0);
@class.constant480 = this.int_1;
if (gh3Song_1 != null)
{
@class.gh3SongInfo.vmethod_0(gh3Song_1);
}
this.class228_6 = new Track<int, int>();
if (this.class239_0 != null)
{
int value = this.class239_0[0];
this.class239_0[0] = 0;
int num = 0;
for (int i = 1; i < this.class239_0.Count; i++)
{
int num2 = this.class239_0[i] - this.class239_0[i - 1];
int num3 = Convert.ToInt32(60000000.0 / (double)num2);
if (num3 != num)
{
@class.bpmInterpreter.bpmList.Add((i - 1) * this.int_1, num3);
num = num3;
}
this.class228_6.Add(this.class239_0[i - 1], num2);
}
this.class239_0[0] = value;
@class.sectionInterpreter.otherList.Add(this.method_0(this.class239_0[this.class239_0.Count - 1]), new List<string>(new string[]
{
"end"
}));
foreach (int current in this.class228_1.Keys)
{
@class.sectionInterpreter.sectionList.Add(this.method_0(current), this.class228_1[current]);
}
foreach (int current2 in this.tsList.Keys)
{
@class.bpmInterpreter.TSList.Add(this.method_0(current2), this.tsList[current2][0]);
}
Track<int, int> class2 = new Track<int, int>();
Track<int, int> class3 = new Track<int, int>();
foreach (int current3 in this.class228_2.Keys)
{
int num4 = this.method_0(current3);
int num5 = this.method_0(current3 + this.class228_2[current3] - this.int_0) - num4;
class2.Add(num4, (num5 <= this.int_1 / 4) ? 0 : num5);
}
foreach (int current4 in this.class228_3.Keys)
{
int num4 = this.method_0(current4);
int num5 = this.method_0(current4 + this.class228_3[current4] - this.int_0) - num4;
class3.Add(num4, (num5 <= this.int_1 / 4) ? 0 : num5);
}
Track<int, int> class4 = new Track<int, int>();
Track<int, int> class5 = new Track<int, int>();
foreach (int current5 in this.bpmList.Keys)
{
int num4 = this.method_0(current5);
int num5 = this.method_0(current5 + this.bpmList[current5] - this.int_0) - num4;
class4.Add(num4, (num5 <= this.int_1 / 4) ? 0 : num5);
}
foreach (int current6 in this.class228_5.Keys)
{
int num4 = this.method_0(current6);
int num5 = this.method_0(current6 + this.class228_5[current6] - this.int_0) - num4;
class5.Add(num4, (num5 <= this.int_1 / 4) ? 0 : num5);
}
string[] array = new string[]
{
"Easy",
"Medium",
"Hard",
"Expert"
};
string[] array2 = new string[]
{
"Single",
"Double"
};
for (int j = 0; j < array2.Length; j++)
{
string text = array2[j];
string[] array3 = new string[]
{
"Guitar",
"Rhythm"
};
for (int k = 0; k < array3.Length; k++)
{
string text2 = array3[k];
string[] array4 = array;
for (int l = 0; l < array4.Length; l++)
{
string text3 = array4[l];
string key = (text2.ToLower() + ((text == "Double") ? "coop" : "") + "_" + text3.ToLower()).Replace("guitar_", "");
if (this.noteList.ContainsKey(key))
{
NoteEventInterpreter class6 = new NoteEventInterpreter();
Track<int, NotesAtOffset> class7 = this.noteList[key];
foreach (int current7 in class7.Keys)
{
int num4 = this.method_0(current7);
int num5 = this.method_0(current7 + class7[current7].sustainLength - this.int_0) - num4;
class6.noteList.Add(num4, new NotesAtOffset(class7[current7].noteValues, (num5 <= this.int_1 / 4) ? 0 : num5));
}
class6.alwaysTrue = false;
if (this.spList.ContainsKey(key))
{
Track<int, int[]> class8 = this.spList[key];
foreach (int current8 in class8.Keys)
{
int num4 = this.method_0(current8);
int num5 = this.method_0(current8 + class8[current8][0] - this.int_0) - num4;
class6.class228_1.Add(num4, (num5 <= this.int_1 / 4) ? 0 : num5);
}
}
if (this.battleNoteList.ContainsKey(key))
{
Track<int, int[]> class9 = this.spList[key];
foreach (int current9 in class9.Keys)
{
int num4 = this.method_0(current9);
int num5 = this.method_0(current9 + class9[current9][0] - this.int_0) - num4;
class6.class228_4.Add(num4, (num5 <= this.int_1 / 4) ? 0 : num5);
}
}
class6.class228_2 = class2;
class6.class228_3 = class3;
class6.class228_5 = class4;
class6.class228_6 = class5;
@class.difficultyWithNotes.Add(text3 + text + text2, class6);
}
}
}
}
this.class228_6.Clear();
this.class228_6 = null;
return @class;
}
return null;
}
public QBCParser(string fileName)
{
List<string> list = new List<string>();
StreamReader streamReader = File.OpenText(fileName);
string text = null;
string currentLine;
while ((currentLine = streamReader.ReadLine()) != null)
{
if (currentLine.StartsWith("["))
{
text = currentLine.Split(new char[]
{
'[',
']'
}, StringSplitOptions.RemoveEmptyEntries)[0];
}
else if (!currentLine.Equals("{"))
{
if (currentLine.Equals("}"))
{
string key;
if ((key = text) == null)
{
goto IL_8AA;
}
if (Class369.dictionary_0 == null)
{
Class369.dictionary_0 = new Dictionary<string, int>(8)
{
{
"Song",
0
},
{
"SyncTrack",
1
},
{
"FretBars",
2
},
{
"Events",
3
},
{
"FaceOffP1",
4
},
{
"FaceOffP2",
5
},
{
"BossBattleP1",
6
},
{
"BossBattleP2",
7
}
};
}
int num;
if (Class369.dictionary_0.TryGetValue(key, out num))
{
switch (num)
{
case 0:
this.gh3Song_0.editable = true;
using (List<string>.Enumerator enumerator = list.GetEnumerator())
{
while (enumerator.MoveNext())
{
string current = enumerator.Current;
string[] array = current.Split(new char[]
{
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
if (array.Length > 1)
{
string text3 = array[0].Trim().ToLower();
string text4 = array[1].Trim().Replace("\"", "");
string key2;
switch (key2 = text3)
{
case "name":
this.gh3Song_0.title = text4;
break;
case "artist":
this.gh3Song_0.artist = text4;
break;
case "year":
this.gh3Song_0.year = text4;
break;
case "player2":
this.gh3Song_0.not_bass = !text4.ToLower().Equals("bass");
break;
case "artisttext":
if (text4.Equals("by"))
{
this.gh3Song_0.artist_text = true;
}
else if (text4.Equals("as made famous by"))
{
this.gh3Song_0.artist_text = false;
}
else
{
this.gh3Song_0.artist_text = text4;
}
break;
case "offset":
this.gh3Song_0.input_offset = (this.gh3Song_0.gem_offset = Convert.ToInt32(Convert.ToDouble(text4) * -1000.0));
break;
case "singer":
this.gh3Song_0.singer = text4;
break;
case "bassist":
this.gh3Song_0.bassist = text4;
break;
case "boss":
this.gh3Song_0.boss = text4;
break;
case "countoff":
this.gh3Song_0.countoff = text4;
break;
case "guitarvol":
this.gh3Song_0.guitar_vol = Convert.ToSingle(text4);
break;
case "bandvol":
this.gh3Song_0.band_vol = Convert.ToSingle(text4);
break;
case "hopo":
this.gh3Song_0.hammer_on = Convert.ToSingle(text4);
break;
case "originalartist":
this.gh3Song_0.original_artist = text4.Equals("true");
break;
case "resolution":
this.int_1 = Convert.ToInt32(text4);
break;
}
}
}
goto IL_A3C;
}
goto IL_514;
case 1:
goto IL_514;
case 2:
goto IL_5AE;
case 3:
using (List<string>.Enumerator enumerator2 = list.GetEnumerator())
{
while (enumerator2.MoveNext())
{
string current2 = enumerator2.Current;
string[] array2 = current2.Split(new char[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a;
if ((a = array2[1]) != null && a == "S")
{
this.class228_1.Add(Convert.ToInt32(array2[0]), array2[2]);
}
}
goto IL_A3C;
}
break;
case 4:
break;
case 5:
goto IL_72D;
case 6:
goto IL_7AC;
case 7:
goto IL_82B;
default:
goto IL_8AA;
}
using (List<string>.Enumerator enumerator3 = list.GetEnumerator())
{
while (enumerator3.MoveNext())
{
string current3 = enumerator3.Current;
string[] array3 = current3.Split(new char[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a2;
if ((a2 = array3[1]) != null && a2 == "F")
{
this.class228_2.Add(Convert.ToInt32(array3[0]), Convert.ToInt32(array3[2]));
}
}
goto IL_A3C;
}
goto IL_72D;
IL_5AE:
this.class239_0 = new Class239<int>();
foreach (string current4 in list)
{
this.class239_0.method_1(Convert.ToInt32(current4.Trim(new char[]
{
' ',
'\t',
'='
})));
}
this.int_0 = (this.class239_0[1] - this.class239_0[0]) / 4;
goto IL_A3C;
IL_514:
using (List<string>.Enumerator enumerator5 = list.GetEnumerator())
{
while (enumerator5.MoveNext())
{
string current5 = enumerator5.Current;
string[] array4 = current5.Split(new char[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a3;
if ((a3 = array4[1]) != null && a3 == "TS")
{
this.tsList.Add(Convert.ToInt32(array4[0]), new int[]
{
Convert.ToInt32(array4[2]),
Convert.ToInt32(array4[3])
});
}
}
goto IL_A3C;
}
goto IL_5AE;
IL_72D:
using (List<string>.Enumerator enumerator6 = list.GetEnumerator())
{
while (enumerator6.MoveNext())
{
string current6 = enumerator6.Current;
string[] array5 = current6.Split(new char[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a4;
if ((a4 = array5[1]) != null && a4 == "F")
{
this.class228_3.Add(Convert.ToInt32(array5[0]), Convert.ToInt32(array5[2]));
}
}
goto IL_A3C;
}
IL_7AC:
using (List<string>.Enumerator enumerator7 = list.GetEnumerator())
{
while (enumerator7.MoveNext())
{
string current7 = enumerator7.Current;
string[] array6 = current7.Split(new char[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a5;
if ((a5 = array6[1]) != null && a5 == "B")
{
this.bpmList.Add(Convert.ToInt32(array6[0]), Convert.ToInt32(array6[2]));
}
}
goto IL_A3C;
}
IL_82B:
using (List<string>.Enumerator enumerator8 = list.GetEnumerator())
{
while (enumerator8.MoveNext())
{
string current8 = enumerator8.Current;
string[] array7 = current8.Split(new char[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a6;
if ((a6 = array7[1]) != null && a6 == "B")
{
this.class228_5.Add(Convert.ToInt32(array7[0]), Convert.ToInt32(array7[2]));
}
}
goto IL_A3C;
}
goto IL_8AA;
}
goto IL_8AA;
IL_A3C:
list.Clear();
continue;
IL_8AA:
text = text.ToLower();
if (!this.noteList.ContainsKey(text))
{
Track<int, NotesAtOffset> noteList = new Track<int, NotesAtOffset>();
Track<int, int[]> spList = new Track<int, int[]>();
Track<int, int[]> battleNote = new Track<int, int[]>();
foreach (string current9 in list)
{
string[] array8 = current9.Split(new char[]
{
' ',
'\t',
'='
}, StringSplitOptions.RemoveEmptyEntries);
string a7;
if ((a7 = array8[1]) != null)
{
if (!(a7 == "N"))
{
if (!(a7 == "S"))
{
if (a7 == "B")
{
battleNote.Add(Convert.ToInt32(array8[0]), new int[]
{
Convert.ToInt32(array8[3]),
Convert.ToInt32(array8[2])
});
}
}
else
{
spList.Add(Convert.ToInt32(array8[0]), new int[]
{
Convert.ToInt32(array8[3]),
Convert.ToInt32(array8[2])
});
}
}
else
{
noteList.Add(Convert.ToInt32(array8[0]), new NotesAtOffset(Convert.ToInt32(array8[2]), Convert.ToInt32(array8[3])));
}
}
}
this.noteList.Add(text, noteList);
this.spList.Add(text, spList);
this.battleNoteList.Add(text, battleNote);
goto IL_A3C;
}
goto IL_A3C;
}
else if (!currentLine.Equals(""))
{
list.Add(currentLine);
}
}
}
streamReader.Close();
}
private void method_5(Track<int, int[]> difficulty, Track<int, int> sp, Track<int, NotesAtOffset> notes)
{
foreach (int current in sp.Keys)
{
int num = this.calculateOffset(current);
int num2 = 0;
if (sp[current] == 0)
{
num2 = 1;
}
else
{
int num4 = 0;
if ((sp.Keys[sp.method_1(current + sp[current])] > current))
{
num4 = notes.Keys[notes.method_1(sp.Keys[sp.method_1(current + sp[current])] - 1)];
}
else
{
num4 = (current + sp[current]);
}
int num3 = this.calculateOffset(num4);
//int num3 = this.method_2((sp.Keys[sp.method_1(current + sp[current])] > current) ? notes.Keys[notes.method_1(sp.Keys[sp.method_1(current + sp[current])] - 1)] : (current + sp[current]));
num2 = (num3 - num);
}
//int num2 = (sp[current] == 0) ? 1 : (this.method_2((sp.Keys[sp.method_1(current + sp[current])] > current) ? notes.Keys[notes.method_1(sp.Keys[sp.method_1(current + sp[current])] - 1)] : (current + sp[current])) - num);
difficulty.Add(num, new int[]
{
num2,
notes.method_3(current, current + sp[current])
});
}
}
private void FNoteEdit_KeyDown(object sender, KeyEventArgs e)
{
ReDraw();
var Px = pos.X;
var Py = pos.Y;
if (e.KeyCode == Keys.Enter)
{
try
{
int o = 0;
Note nt = new NoteQuarter();
Note[] NoteArray = new Note[Track.Notes.Count];
Track.Notes.CopyTo(NoteArray);
int l = 0;
bool ExitFromLoop = false;
while (l < Line.Lines.Count)
{
var L = Line.Lines[l];
if (pos.Y + 3.5F == L.Y || pos.Y + 3F == L.Y)
{
bool isBreak = false;
if (NoteArray.Length == 0)
{
nt = new NoteQuarter(ij, L);
}
else
{
while (o < NoteArray.Length)
{
if (NoteArray[o].X == pos.X)
{
int x = NoteArray[o].Xpos;
var str = NoteArray[o].ToString();
int index = o;
switch (str)
{
case "PauseSixteenth":
Track.Notes.Remove(NoteArray[o]);
nt = new NoteSixteenth(x, L);
Track.Notes.Insert(index, nt);
isBreak = true;
break;
case "PauseEighth":
Track.Notes.Remove(NoteArray[o]);
nt = new NoteEighth(x, L);
Track.Notes.Insert(index, nt);
isBreak = true;
break;
case "PauseWhole":
Track.Notes.Remove(NoteArray[o]);
nt = new NoteWhole(x, L);
Track.Notes.Insert(index, nt);
isBreak = true;
break;
case "PauseHalf":
Track.Notes.Remove(NoteArray[o]);
nt = new NoteHalf(x, L);
Track.Notes.Insert(index, nt);
isBreak = true;
break;
case "PauseQuarter":
Track.Notes.Remove(NoteArray[o]);
nt = new NoteQuarter(x, L);
Track.Notes.Insert(index, nt);
isBreak = true;
break;
default:
nt = new NoteQuarter(ij, L);
ExitFromLoop = true;
break;
}
}
else
if (ExitFromLoop)
{
}
else
{
nt = new NoteQuarter(ij, L);
}
if (isBreak)
{
break;
}
o++;
}
}
try
{
if (isBreak)
{
}
else
{
Track.Add(nt, ij);
}
}
catch { }
}
l++;
}
if (nt.Name == MIDI_Library.Name.Pause)
{
Refresh();
}
}
catch { }
Refresh();
ReDraw();
pos.Draw(Graphics);
Graphics.Render();
}
else if (e.KeyCode == Keys.Right)
{
if (pos.X >= Staff.WidthOfStaff)
{
pos.Y += 75;
pos.X = 65;
ih = ij;
ij = 0;
}
else
{
pos.X += 30;
ij++;
}
ReDraw();
pos.Draw(Graphics);
Graphics.Render();
}
else if (e.Control && e.KeyCode == Keys.S)
{
SaveSong(DocumentName);
ReDraw();
}
else if (e.KeyCode == Keys.Down)
{
if (pos.Y >= Staff.Staff_to_up - Staff.Between_staff_rows / 2 && pos.Y <= Staff.Staff_to_up + Staff.Between_staff_rows * 9 + Staff.Between_staff_rows / 2)
{
pos.Y += (float)Staff.Between_staff_rows / 2;
}
ReDraw();
pos.Draw(Graphics);
Graphics.Render();
}
else if (e.KeyCode == Keys.Left)
{
if (pos.Y > 60 - 3.5F)
{
if (pos.X <= 65)
{
pos.Y -= 75;
pos.X = Staff.WidthOfStaff;
ij = ih;
}
else
{
pos.X -= 30;
ij--;
}
}
ReDraw();
pos.Draw(Graphics);
Graphics.Render();
}
else if (e.KeyCode == Keys.Up)
{
if (pos.Y >= 50)
{
pos.DrawWhite(Graphics, Px, Py);
pos.Y -= (float)Staff.Between_staff_rows / 2;
}
ReDraw();
pos.Draw(Graphics);
Graphics.Render();
}
else if (e.KeyCode == Keys.Delete)
{
int z = 0;
int index = 0;
int x = 0;
var type = MIDI_Library.Type.Quarter;
Note[] NoteArray = new Note[Track.Notes.Count];
Track.Notes.CopyTo(NoteArray);
bool isBreak = false;
for (int iv = 0; iv < Line.Lines.Count; iv++)
{
if (isBreak)
{
break;
}
else
{
var ln = Line.Lines[iv];
if (ln.ToString() == "Pause")
{
while (z < NoteArray.Length)
{
if ((NoteArray[z].Y == pos.Y && NoteArray[z].X == pos.X) || (NoteArray[z].Y == pos.Y - 0.5F && NoteArray[z].X == pos.X) || (NoteArray[z].Y == pos.Y + 3F && NoteArray[z].X == pos.X))
{
index = z;
type = NoteArray[z].Type;
x = NoteArray[z].Xpos;
switch (type)
{
case MIDI_Library.Type.Sixteenth:
Track.Notes[z] = new PauseSixteenth(x, ln);
isBreak = true;
break;
case MIDI_Library.Type.Quarter:
Track.Notes[z] = new PauseQuarter(x, ln);
isBreak = true;
break;
case MIDI_Library.Type.Eighth:
Track.Notes[z] = new PauseEighth(x, ln);
isBreak = true;
break;
case MIDI_Library.Type.Half:
Track.Notes[z] = new PauseHalf(x, ln);
isBreak = true;
break;
case MIDI_Library.Type.Whole:
Track.Notes[z] = new PauseWhole(x, ln);
isBreak = true;
break;
}
if (isBreak)
{
break;
}
}
z++;
}
}
}
}
Refresh();
ReDraw();
pos.Draw(Graphics);
Graphics.Render();
}
else if (e.KeyCode == Keys.Add)
{
Note[] temp = new Note[Track.Notes.Count];
Track.Notes.CopyTo(temp);
for (int n = 0; n < Track.Notes.Count; n++)
{
if ((Track.Notes[n].Y == pos.Y && Track.Notes[n].X == pos.X) || (Track.Notes[n].Y == pos.Y - 0.5F && Track.Notes[n].X == pos.X) || Track.Notes[n].Y == pos.Y + 3F && Track.Notes[n].X == pos.X)
{
var Ln = Track.Notes[n].CurrentLine;
var xx = Track.Notes[n].Xpos;
if (Track.Notes[n].Name != MIDI_Library.Name.Pause)
{
switch (Track.Notes[n].Type)
{
case MIDI_Library.Type.Quarter:
Track.Notes[n] = new NoteEighth(xx, Ln);
break;
case MIDI_Library.Type.Half:
Track.Notes[n] = new NoteQuarter(xx, Ln);
break;
case MIDI_Library.Type.Whole:
Track.Notes[n] = new NoteHalf(xx, Ln);
break;
case MIDI_Library.Type.Eighth:
Track.Notes[n] = new NoteSixteenth(xx, Ln);
break;
case MIDI_Library.Type.Sixteenth:
break;
default:
break;
}
}
else
{
switch (Track.Notes[n].Type)
{
case MIDI_Library.Type.Quarter:
Track.Notes[n] = new PauseEighth(xx, Ln);
break;
case MIDI_Library.Type.Half:
Track.Notes[n] = new PauseQuarter(xx, Ln);
break;
case MIDI_Library.Type.Whole:
Track.Notes[n] = new PauseHalf(xx, Ln);
break;
case MIDI_Library.Type.Eighth:
Track.Notes[n] = new PauseSixteenth(xx, Ln);
break;
case MIDI_Library.Type.Sixteenth:
break;
default:
break;
}
}
}
}
Refresh();
Track.Draw(Graphics);
Graphics.Render();
}
else if (e.KeyCode == Keys.OemMinus)
{
Refresh();
Note[] temp = new Note[Track.Notes.Count];
Track.Notes.CopyTo(temp);
for (int n = 0; n < Track.Notes.Count; n++)
{
if ((Track.Notes[n].Y == pos.Y && Track.Notes[n].X == pos.X) || (Track.Notes[n].Y == pos.Y - 0.5F && Track.Notes[n].X == pos.X) || (Track.Notes[n].Y == pos.Y + 3F && Track.Notes[n].X == pos.X))
{
var Ln = Track.Notes[n].CurrentLine;
var xx = Track.Notes[n].Xpos;
if (Track.Notes[n].Name != MIDI_Library.Name.Pause)
{
switch (Track.Notes[n].Type)
{
case MIDI_Library.Type.Quarter:
Track.Notes[n] = new NoteHalf(xx, Ln);
break;
case MIDI_Library.Type.Half:
Track.Notes[n] = new NoteWhole(xx, Ln);
break;
case MIDI_Library.Type.Sixteenth:
Track.Notes[n] = new NoteEighth(xx, Ln);
break;
case MIDI_Library.Type.Eighth:
Track.Notes[n] = new NoteQuarter(xx, Ln);
break;
case MIDI_Library.Type.Whole:
break;
default:
break;
}
}
else
{
switch (Track.Notes[n].Type)
{
case MIDI_Library.Type.Quarter:
Track.Notes[n] = new PauseHalf(xx, Ln);
break;
case MIDI_Library.Type.Half:
Track.Notes[n] = new PauseWhole(xx, Ln);
break;
case MIDI_Library.Type.Sixteenth:
Track.Notes[n] = new PauseEighth(xx, Ln);
break;
case MIDI_Library.Type.Eighth:
Track.Notes[n] = new PauseQuarter(xx, Ln);
break;
case MIDI_Library.Type.Whole:
break;
default:
break;
}
}
}
}
Refresh();
ReDraw();
Graphics.Render();
}
else if ((e.Shift) && e.KeyCode == Keys.Space)
{
if (ThreadPlayFromStart == null)
{
ThreadPlayFromStart = new Thread(PlayTrack);
ThreadPlayFromStart.Start();
}
else
{
ThreadPlayFromStart.Abort();
ThreadPlayFromStart = null;
}
}
else if ((e.Control) && e.KeyCode == Keys.Space)
{
ThreadFromPosition = new Thread(PlayTrackFromPosition);
ThreadFromPosition.Start();
}
else
{
ReDraw();
}
}
private void method_4(Track<int, NotesAtOffset> class228_1, Track<int, NotesAtOffset> class228_2)
{
foreach (int current in class228_2.Keys)
{
int num = this.calculateOffset(current);
int int_ = (class228_2[current].sustainLength == 0) ? 1 : (this.calculateOffset(current + class228_2[current].sustainLength) - num);
if (class228_1.ContainsKey(num))
{
for (int i = 0; i < 32; i++)
{
if (class228_2[current].noteValues[i])
{
class228_1[num].noteValues[i] = true;
}
}
}
else
{
class228_1.Add(num, new NotesAtOffset(class228_2[current].noteValues, int_));
}
}
}
