private void Run()
{
if (StartController == null)
{
return;
}
var savedHighlights = _tree.HighlightedNodes;
var settings = CreateSettings();
var solver = Tabs[_selectedTabIndex].CreateSolver(settings);
var controllerVm = new ControllerViewModel(solver, Tabs[_selectedTabIndex].DisplayName, _tree);
controllerVm.StartSolverAsync();
// Kinda crude, but I'm not going to write a framework for a few popups.
StartController.Raise(this, new StartControllerEventArgs(controllerVm));
if (controllerVm.Result == true)
{
_tree.SkilledNodes = new HashSet <ushort>(controllerVm.BestSoFar);
}
_tree.HighlightedNodes = savedHighlights;
_tree.DrawTreeComparisonHighlight();
_tree.DrawHighlights();
_tree.UpdateAvailNodes();
RunFinished.Raise(this);
}
public async Task RunAsync(GeneratorTabViewModel generator)
{
var savedHighlights = Tree.HighlightedNodes.ToList();
var solver = await generator.CreateSolverAsync();
if (solver == null)
{
return;
}
var controllerResult = await _dialogCoordinator
.ShowControllerDialogAsync(_dialogContext, solver, generator.DisplayName, Tree);
if (controllerResult != null)
{
Tree.SkilledNodes.Clear();
Tree.AllocateSkillNodes(controllerResult.Select(n => SkillTree.Skillnodes[n]));
}
Tree.HighlightedNodes.Clear();
Tree.HighlightedNodes.UnionWith(savedHighlights);
Tree.DrawHighlights();
RunFinished?.Invoke(this, EventArgs.Empty);
}
private void Run_DoneAndUpdate(object sender, RoutedEventArgs e)
{
UpdateAlertCounter();
if (RunFinished != null)
{
RunFinished?.Invoke(this, null);
}
}
private string Run_Program(MapCleanerVm args, BackgroundWorker worker, DoWorkEventArgs _)
{
var result = new Classes.Tools.MapCleaner.MapCleanerResult();
var reader = EditorReaderStuff.GetFullEditorReaderOrNot();
if (args.Paths.Length == 1)
{
var editor = EditorReaderStuff.GetNewestVersionOrNot(args.Paths[0], reader);
List <TimingPoint> orgininalTimingPoints = editor.Beatmap.BeatmapTiming.TimingPoints.Select(tp => tp.Copy()).ToList();
int oldTimingPointsCount = editor.Beatmap.BeatmapTiming.TimingPoints.Count;
result.Add(Classes.Tools.MapCleaner.CleanMap(editor, args.MapCleanerArgs, worker));
// Update result with removed count
int removed = oldTimingPointsCount - editor.Beatmap.BeatmapTiming.TimingPoints.Count;
result.TimingPointsRemoved += removed;
List <TimingPoint> newTimingPoints = editor.Beatmap.BeatmapTiming.TimingPoints;
Monitor_Differences(orgininalTimingPoints, newTimingPoints);
// Save the file
editor.SaveFile();
}
else
{
foreach (string path in args.Paths)
{
var editor = EditorReaderStuff.GetNewestVersionOrNot(path, reader);
int oldTimingPointsCount = editor.Beatmap.BeatmapTiming.TimingPoints.Count;
result.Add(Classes.Tools.MapCleaner.CleanMap(editor, args.MapCleanerArgs, worker));
// Update result with removed count
int removed = oldTimingPointsCount - editor.Beatmap.BeatmapTiming.TimingPoints.Count;
result.TimingPointsRemoved += removed;
// Save the file
editor.SaveFile();
}
}
// Do stuff
if (args.Quick)
{
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, reader != null));
}
// Make an accurate message
string message = $"Successfully {(result.TimingPointsRemoved < 0 ? "added" : "removed")} {Math.Abs(result.TimingPointsRemoved)} {(Math.Abs(result.TimingPointsRemoved) == 1 ? "greenline" : "greenlines")}" +
(args.MapCleanerArgs.ResnapObjects ? $" and resnapped {result.ObjectsResnapped} {(result.ObjectsResnapped == 1 ? "object" : "objects")}" : "") +
(args.MapCleanerArgs.RemoveUnusedSamples ? $" and removed {result.SamplesRemoved} unused {(result.SamplesRemoved == 1 ? "sample" : "samples")}" : "") + "!";
return(args.Quick ? string.Empty : message);
}
private string PlaceHitsounds(Arguments args, BackgroundWorker worker, DoWorkEventArgs _)
{
if (args.Zones.Count == 0)
{
return("There are no zones!");
}
var reader = EditorReaderStuff.GetFullEditorReaderOrNot();
foreach (string path in args.Paths)
{
var editor = EditorReaderStuff.GetNewestVersionOrNot(path, reader);
Beatmap beatmap = editor.Beatmap;
Timeline timeline = beatmap.GetTimeline();
for (int i = 0; i < timeline.TimelineObjects.Count; i++)
{
var tlo = timeline.TimelineObjects[i];
var column = args.Zones.FirstOrDefault();
double best = double.MaxValue;
foreach (var c in args.Zones)
{
double dist = c.Distance(tlo.Origin.Pos);
if (dist < best)
{
best = dist;
column = c;
}
}
if (column == null)
{
continue;
}
tlo.Filename = column.Filename;
tlo.SampleSet = column.SampleSet;
tlo.AdditionSet = column.AdditionsSet;
tlo.CustomIndex = column.CustomIndex;
tlo.SampleVolume = 0;
tlo.SetHitsound(column.Hitsound);
tlo.HitsoundsToOrigin();
UpdateProgressBar(worker, (int)(100f * i / beatmap.HitObjects.Count));
}
// Save the file
editor.SaveFile();
}
// Do stuff
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, reader != null, args.Quick));
return(args.Quick ? "" : "Done!");
}
public void Start(GWInputData <PositionData> input)
{
ComputationInfo.IsActive = true;
Input = input;
Targets = Input.Targets;
StartTime = DateTime.Now;
RunStarted.Enter();
Work();
EndTime = DateTime.Now;
ComputationInfo.IsActive = false;
RunFinished.Enter();
}
private string Run_Program(Arguments args, BackgroundWorker worker, DoWorkEventArgs _) {
var result = new MapCleaner.MapCleanerResult();
bool editorRead = EditorReaderStuff.TryGetFullEditorReader(out var reader);
if (args.Paths.Length == 1) {
var editor = EditorReaderStuff.GetBeatmapEditor(args.Paths[0], reader, editorRead);
List<TimingPoint> orgininalTimingPoints = new List<TimingPoint>();
foreach (TimingPoint tp in editor.Beatmap.BeatmapTiming.TimingPoints) { orgininalTimingPoints.Add(tp.Copy()); }
int oldTimingPointsCount = editor.Beatmap.BeatmapTiming.TimingPoints.Count;
result.Add(MapCleaner.CleanMap(editor, args.CleanerArguments, worker));
// Update result with removed count
int removed = oldTimingPointsCount - editor.Beatmap.BeatmapTiming.TimingPoints.Count;
result.TimingPointsRemoved += removed;
List<TimingPoint> newTimingPoints = editor.Beatmap.BeatmapTiming.TimingPoints;
Monitor_Differences(orgininalTimingPoints, newTimingPoints);
// Save the file
editor.SaveFile();
} else {
foreach (string path in args.Paths) {
var editor = EditorReaderStuff.GetBeatmapEditor(path, reader, editorRead);
int oldTimingPointsCount = editor.Beatmap.BeatmapTiming.TimingPoints.Count;
result.Add(MapCleaner.CleanMap(editor, args.CleanerArguments, worker));
// Update result with removed count
int removed = oldTimingPointsCount - editor.Beatmap.BeatmapTiming.TimingPoints.Count;
result.TimingPointsRemoved += removed;
// Save the file
editor.SaveFile();
}
}
// Do stuff
if (args.Quick)
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, editorRead));
// Make an accurate message
string message = $"Successfully {(result.TimingPointsRemoved < 0 ? "added" : "removed")} {Math.Abs(result.TimingPointsRemoved)} {(Math.Abs(result.TimingPointsRemoved) == 1 ? "greenline" : "greenlines")}" +
(args.CleanerArguments.ResnapObjects ? $" and resnapped {result.ObjectsResnapped} {(result.ObjectsResnapped == 1 ? "object" : "objects")}" : "") +
(args.CleanerArguments.RemoveUnusedSamples ? $" and removed {result.SamplesRemoved} unused {(result.SamplesRemoved == 1 ? "sample" : "samples")}" : "") + "!";
return args.Quick ? "" : message;
}
private string ExportPattern(PatternGalleryVm args, BackgroundWorker worker, DoWorkEventArgs _)
{
var reader = EditorReaderStuff.GetFullEditorReaderOrNot();
var editor = EditorReaderStuff.GetNewestVersionOrNot(IOHelper.GetCurrentBeatmapOrCurrentBeatmap(), reader);
var pattern = args.Patterns.FirstOrDefault(o => o.IsSelected);
if (pattern == null)
{
throw new Exception("No pattern has been selected to export.");
}
var patternBeatmap = pattern.GetPatternBeatmap(args.FileHandler);
var patternPlacer = args.OsuPatternPlacer;
if (reader != null)
{
patternPlacer.PlaceOsuPatternAtTime(patternBeatmap, editor.Beatmap, reader.EditorTime(), false);
}
else
{
patternPlacer.PlaceOsuPattern(patternBeatmap, editor.Beatmap, protectBeatmapPattern: false);
}
editor.SaveFile();
// Increase pattern use count and time
pattern.UseCount++;
pattern.LastUsedTime = DateTime.Now;
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
if (args.Quick)
{
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, reader != null));
}
return("Successfully exported pattern!");
}
public async Task RunAsync()
{
var savedHighlights = _tree.HighlightedNodes;
var settings = CreateSettings();
var solver = Tabs[_selectedTabIndex].CreateSolver(settings);
var controllerResult = await _dialogCoordinator
.ShowControllerDialogAsync(this, solver, Tabs[_selectedTabIndex].DisplayName, _tree);
if (controllerResult != null)
{
_tree.SkilledNodes.Clear();
_tree.AllocateSkillNodes(controllerResult.Select(n => SkillTree.Skillnodes[n]));
}
_tree.HighlightedNodes.Clear();
_tree.HighlightedNodes.UnionWith(savedHighlights);
_tree.DrawHighlights();
RunFinished?.Invoke(this, EventArgs.Empty);
}
public async Task RunAsync()
{
var savedHighlights = _tree.HighlightedNodes;
var settings = CreateSettings();
var solver = Tabs[_selectedTabIndex].CreateSolver(settings);
var controllerResult = await _dialogCoordinator
.ShowControllerDialogAsync(this, solver, Tabs[_selectedTabIndex].DisplayName, _tree);
if (controllerResult != null)
{
_tree.SkilledNodes = new HashSet <ushort>(controllerResult);
}
_tree.HighlightedNodes = savedHighlights;
_tree.DrawTreeComparisonHighlight();
_tree.DrawHighlights();
_tree.UpdateAvailNodes();
RunFinished.Raise(this);
}
public void OnTestEvent(string report)
{
XmlNode xmlNode = XmlHelper.CreateXmlNode(report);
switch (xmlNode.Name)
{
case "start-test":
TestStarting?.Invoke(new TestNodeEventArgs(TestAction.TestStarting, new TestNode(xmlNode)));
break;
case "start-suite":
SuiteStarting?.Invoke(new TestNodeEventArgs(TestAction.SuiteStarting, new TestNode(xmlNode)));
break;
case "start-run":
RunStarting?.Invoke(new RunStartingEventArgs(xmlNode.GetAttribute("count", -1)));
break;
case "test-case":
ResultNode result = new ResultNode(xmlNode);
_resultIndex[result.Id] = result;
TestFinished?.Invoke(new TestResultEventArgs(TestAction.TestFinished, result));
break;
case "test-suite":
result = new ResultNode(xmlNode);
_resultIndex[result.Id] = result;
SuiteFinished?.Invoke(new TestResultEventArgs(TestAction.SuiteFinished, result));
break;
case "test-run":
result = new ResultNode(xmlNode);
_resultIndex[result.Id] = result;
RunFinished?.Invoke(new TestResultEventArgs(TestAction.RunFinished, result));
break;
}
}
private string Sliderate(SlideratorVm arg, BackgroundWorker worker)
{
// Make a position function for Sliderator
Classes.Tools.Sliderator.PositionFunctionDelegate positionFunction;
// Test if the function is a constant velocity
bool constantVelocity;
// We convert the graph GetValue function to a function that works like ms -> px
// d is a value representing the number of milliseconds into the slider
if (arg.GraphModeSetting == SlideratorVm.GraphMode.Velocity)
{
// Here we use SvGraphMultiplier to get an accurate conversion from SV to slider completion per beat
// Completion = (100 * SliderMultiplier / PixelLength) * SV * Beats
positionFunction = d =>
arg.GraphState.GetIntegral(0, d * arg.BeatsPerMinute / 60000) * arg.SvGraphMultiplier *
arg.PixelLength;
constantVelocity = Precision.AlmostEquals(AnchorCollection.GetMaxValue(arg.GraphState.Anchors),
AnchorCollection.GetMinValue(arg.GraphState.Anchors));
}
else
{
positionFunction = d => arg.GraphState.GetValue(d * arg.BeatsPerMinute / 60000) * arg.PixelLength;
constantVelocity = Precision.AlmostEquals(AnchorCollection.GetMaxDerivative(arg.GraphState.Anchors),
AnchorCollection.GetMinDerivative(arg.GraphState.Anchors));
}
// Dont do Sliderator if the velocity is constant AND equal to the new velocity
var simplifyShape = constantVelocity && Precision.AlmostEquals(
arg.PixelLength / arg.GraphBeats / arg.GlobalSv / 100,
arg.NewVelocity);
// Get the highest velocity occuring in the graph
double velocity = arg.NewVelocity; // Velocity is in SV
// Do bad stuff to the velocity to make sure its the same SV as after writing it to .osu code
velocity = -100 / double.Parse((-100 / velocity).ToInvariant(), CultureInfo.InvariantCulture);
// Other velocity is in px / ms
var otherVelocity = velocity * arg.SvGraphMultiplier * arg.PixelLength * arg.BeatsPerMinute / 60000;
// Time between timeline ticks for stream export
var deltaT = 60000 / arg.BeatsPerMinute / arg.BeatSnapDivisor;
// Update progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(10);
}
List <Vector2> slideration = new List <Vector2>();
var sliderator = new Classes.Tools.Sliderator {
PositionFunction = positionFunction, MaxT = arg.GraphBeats / arg.BeatsPerMinute * 60000,
Velocity = otherVelocity,
MinDendriteLength = arg.MinDendrite
};
if (!simplifyShape)
{
// Get slider path like from the hit object preview
var sliderPath = new SliderPath(arg.VisibleHitObject.SliderType,
arg.VisibleHitObject.GetAllCurvePoints().ToArray(),
GetMaxCompletion(arg, arg.GraphState.Anchors) * arg.PixelLength);
var path = new List <Vector2>();
sliderPath.GetPathToProgress(path, 0, 1);
// Update progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(20);
}
// Do Sliderator
sliderator.SetPath(path);
slideration = arg.ExportAsStream ?
sliderator.SliderateStream(deltaT) :
sliderator.Sliderate();
// Check for some illegal output
if (double.IsInfinity(sliderator.MaxS) || double.IsNaN(sliderator.MaxS) ||
slideration.Any(v => double.IsNaN(v.X) || double.IsNaN(v.Y)))
{
return("Encountered unexpected values from Sliderator. Please check your input.");
}
}
// Update progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(60);
}
// Exporting stuff
BeatmapEditor editor;
bool editorRead = false;
if (arg.DoEditorRead)
{
editor = EditorReaderStuff.GetNewestVersionOrNot(arg.Path, out _, out var exception);
if (exception == null)
{
editorRead = true;
}
arg.DoEditorRead = false;
}
else
{
editor = new BeatmapEditor(arg.Path);
}
var beatmap = editor.Beatmap;
var timing = beatmap.BeatmapTiming;
// Get hit object that might be present at the export time or make a new one
var hitObjectHere = beatmap.HitObjects.FirstOrDefault(o => Math.Abs(arg.ExportTime - o.Time) < 5) ??
new HitObject(arg.ExportTime, 0, SampleSet.Auto, SampleSet.Auto);
// Clone the hit object to not affect the already existing hit object instance with changes
var clone = new HitObject(hitObjectHere.GetLine())
{
IsCircle = arg.ExportAsStream, IsSpinner = false, IsHoldNote = false, IsSlider = !arg.ExportAsStream
};
// Update progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(70);
}
if (!arg.ExportAsStream)
{
// Give the new hit object the sliderated anchors
if (simplifyShape)
{
// The velocity is constant, so you can simplify to the original slider shape
clone.SetAllCurvePoints(arg.VisibleHitObject.GetAllCurvePoints());
clone.SliderType = arg.VisibleHitObject.SliderType;
}
else
{
clone.SetAllCurvePoints(slideration);
clone.SliderType = PathType.Bezier;
}
clone.PixelLength = sliderator.MaxS;
clone.SliderVelocity = -100 / velocity;
// Add hit object
if (arg.ExportModeSetting == SlideratorVm.ExportMode.Add)
{
beatmap.HitObjects.Add(clone);
}
else
{
beatmap.HitObjects.Remove(hitObjectHere);
beatmap.HitObjects.Add(clone);
}
// Add SV
var timingPointsChanges = new List <TimingPointsChange>();
if (arg.DelegateToBpm)
{
var tpAfter = timing.GetRedlineAtTime(clone.Time).Copy();
var tpOn = tpAfter.Copy();
tpAfter.Offset = clone.Time;
tpOn.Offset = clone.Time - 1; // This one will be on the slider
tpAfter.OmitFirstBarLine = true;
tpOn.OmitFirstBarLine = true;
// Express velocity in BPM
tpOn.MpB /= -100 / clone.SliderVelocity;
// NaN SV results in removal of slider ticks
clone.SliderVelocity = arg.RemoveSliderTicks ? double.NaN : -100;
// Add redlines
timingPointsChanges.Add(new TimingPointsChange(tpOn, mpb: true, inherited: true, omitFirstBarLine: true, fuzzyness: 0));
timingPointsChanges.Add(new TimingPointsChange(tpAfter, mpb: true, inherited: true, omitFirstBarLine: true, fuzzyness: 0));
clone.Time -= 1;
}
// Add SV for every hit object so the SV doesnt change for anything else than the sliderated slider
timingPointsChanges.AddRange(beatmap.HitObjects.Select(ho => {
var sv = ho == clone ? ho.SliderVelocity : timing.GetSvAtTime(ho.Time);
var tp = timing.GetTimingPointAtTime(ho.Time).Copy();
tp.MpB = sv;
tp.Offset = ho.Time;
return(new TimingPointsChange(tp, mpb: true, fuzzyness: 0));
}));
TimingPointsChange.ApplyChanges(timing, timingPointsChanges);
}
else
{
// Add hit objects
if (arg.ExportModeSetting == SlideratorVm.ExportMode.Override)
{
beatmap.HitObjects.Remove(hitObjectHere);
}
double t = arg.ExportTime;
foreach (var pos in slideration)
{
clone.Pos = pos;
clone.Time = t;
beatmap.HitObjects.Add(clone);
clone = new HitObject(clone.GetLine())
{
IsCircle = true, IsSpinner = false, IsHoldNote = false, IsSlider = false, NewCombo = false
};
t += deltaT;
}
}
// Update progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(80);
}
beatmap.SortHitObjects();
editor.SaveFile();
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
if (arg.Quick)
{
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, editorRead));
}
return(arg.Quick ? string.Empty : "Done!");
}
private string Run_Program(AutoFailDetectorVm args, BackgroundWorker worker, DoWorkEventArgs _)
{
var reader = EditorReaderStuff.GetFullEditorReaderOrNot();
var editor = EditorReaderStuff.GetNewestVersionOrNot(args.Paths[0], reader);
var beatmap = editor.Beatmap;
// Get approach time and radius of the 50 score hit window
var ar = args.ApproachRateOverride == -1
? editor.Beatmap.Difficulty["ApproachRate"].DoubleValue
: args.ApproachRateOverride;
var approachTime = (int)Beatmap.GetApproachTime(ar);
var od = args.OverallDifficultyOverride == -1
? editor.Beatmap.Difficulty["OverallDifficulty"].DoubleValue
: args.OverallDifficultyOverride;
var window50 = (int)Math.Ceiling(200 - 10 * od);
// Start time and end time
var mapStartTime = (int)beatmap.GetMapStartTime();
var mapEndTime = (int)beatmap.GetMapEndTime();
var autoFailTime = (int)beatmap.GetAutoFailCheckTime();
// Detect auto-fail
var autoFailDetector = new Classes.Tools.AutoFailDetector(beatmap.HitObjects,
mapStartTime, mapEndTime, autoFailTime,
approachTime, window50, args.PhysicsUpdateLeniency);
var autoFail = autoFailDetector.DetectAutoFail();
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(33);
}
// Fix auto-fail
if (args.GetAutoFailFix)
{
var placedFix = autoFailDetector.AutoFailFixDialogue(args.AutoPlaceFix);
if (placedFix)
{
editor.SaveFile();
}
}
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(67);
}
// Set the timeline lists
_unloadingObjects = args.ShowUnloadingObjects ? autoFailDetector.UnloadingObjects : new List <double>();
_potentialUnloadingObjects = args.ShowPotentialUnloadingObjects ? autoFailDetector.PotentialUnloadingObjects : new List <double>();
_potentialDisruptors = args.ShowPotentialDisruptors ? autoFailDetector.Disruptors : new List <double>();
// Set end time for the timeline
_endTimeMonitor = mapEndTime;
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, false, args.Quick));
return(autoFail ? $"{autoFailDetector.UnloadingObjects.Count} unloading objects detected and {autoFailDetector.PotentialUnloadingObjects.Count} potential unloading objects detected!" :
autoFailDetector.PotentialUnloadingObjects.Count > 0 ? $"No auto-fail, but {autoFailDetector.PotentialUnloadingObjects.Count} potential unloading objects detected." :
"No auto-fail detected.");
}
public void Handle(RunFinished @event)
{
EventHandlerPolicy.SafeInvoke(RunFinished, this, System.EventArgs.Empty);
}
private string Merge_Sliders(Arguments arg, BackgroundWorker worker)
{
var slidersMerged = 0;
var editorRead = EditorReaderStuff.TryGetFullEditorReader(out var reader);
foreach (var path in arg.Paths)
{
var editor = EditorReaderStuff.GetBeatmapEditor(path, reader, editorRead, out var selected, out var editorActuallyRead);
if (arg.SelectionMode == 0 && !editorActuallyRead)
{
return(EditorReaderStuff.SelectedObjectsReadFailText);
}
var beatmap = editor.Beatmap;
var markedObjects = arg.SelectionMode == 0 ? selected :
arg.SelectionMode == 1 ? beatmap.GetBookmarkedObjects() :
beatmap.HitObjects;
var mergeLast = false;
for (var i = 0; i < markedObjects.Count - 1; i++)
{
var ho1 = markedObjects[i];
var ho2 = markedObjects[i + 1];
if (ho1.IsSlider && ho2.IsSlider && (ho1.CurvePoints.Last() - ho2.Pos).Length <= arg.Leniency)
{
var sp1 = BezierConverter.ConvertToBezier(ho1.SliderPath).ControlPoints;
var sp2 = BezierConverter.ConvertToBezier(ho2.SliderPath).ControlPoints;
double extraLength = 0;
switch (arg.ConnectionMode)
{
case ConnectionMode.Move:
Move(sp2, sp1.Last() - sp2.First());
break;
case ConnectionMode.Linear:
sp1.Add(sp1.Last());
sp1.Add(sp2.First());
extraLength = (ho1.CurvePoints.Last() - ho2.Pos).Length;
break;
}
var mergedAnchors = sp1.Concat(sp2).ToList();
mergedAnchors.Round();
var linearLinear = arg.LinearOnLinear && IsLinearBezier(sp1) && IsLinearBezier(sp2);
if (linearLinear)
{
for (var j = 0; j < mergedAnchors.Count - 1; j++)
{
if (mergedAnchors[j] != mergedAnchors[j + 1])
{
continue;
}
mergedAnchors.RemoveAt(j);
j--;
}
}
var mergedPath = new SliderPath(linearLinear ? PathType.Linear : PathType.Bezier, mergedAnchors.ToArray(),
ho1.PixelLength + ho2.PixelLength + extraLength);
ho1.SliderPath = mergedPath;
beatmap.HitObjects.Remove(ho2);
markedObjects.Remove(ho2);
i--;
slidersMerged++;
if (!mergeLast)
{
slidersMerged++;
}
mergeLast = true;
}
else if (ho1.IsSlider && ho2.IsCircle && (ho1.CurvePoints.Last() - ho2.Pos).Length <= arg.Leniency)
{
var sp1 = BezierConverter.ConvertToBezier(ho1.SliderPath).ControlPoints;
sp1.Add(sp1.Last());
sp1.Add(ho2.Pos);
var extraLength = (ho1.CurvePoints.Last() - ho2.Pos).Length;
var mergedAnchors = sp1;
mergedAnchors.Round();
var linearLinear = arg.LinearOnLinear && IsLinearBezier(sp1);
if (linearLinear)
{
for (var j = 0; j < mergedAnchors.Count - 1; j++)
{
if (mergedAnchors[j] != mergedAnchors[j + 1])
{
continue;
}
mergedAnchors.RemoveAt(j);
j--;
}
}
var mergedPath = new SliderPath(linearLinear ? PathType.Linear : PathType.Bezier, mergedAnchors.ToArray(), ho1.PixelLength + extraLength);
ho1.SliderPath = mergedPath;
beatmap.HitObjects.Remove(ho2);
markedObjects.Remove(ho2);
i--;
slidersMerged++;
if (!mergeLast)
{
slidersMerged++;
}
mergeLast = true;
}
else if (ho1.IsCircle && ho2.IsSlider && (ho1.Pos - ho2.Pos).Length <= arg.Leniency)
{
var sp2 = BezierConverter.ConvertToBezier(ho2.SliderPath).ControlPoints;
sp2.Insert(0, sp2.First());
sp2.Insert(0, ho1.Pos);
var extraLength = (ho1.Pos - ho2.Pos).Length;
var mergedAnchors = sp2;
mergedAnchors.Round();
var linearLinear = arg.LinearOnLinear && IsLinearBezier(sp2);
if (linearLinear)
{
for (var j = 0; j < mergedAnchors.Count - 1; j++)
{
if (mergedAnchors[j] != mergedAnchors[j + 1])
{
continue;
}
mergedAnchors.RemoveAt(j);
j--;
}
}
var mergedPath = new SliderPath(linearLinear ? PathType.Linear : PathType.Bezier, mergedAnchors.ToArray(), ho2.PixelLength + extraLength);
ho2.SliderPath = mergedPath;
beatmap.HitObjects.Remove(ho1);
markedObjects.Remove(ho1);
i--;
slidersMerged++;
if (!mergeLast)
{
slidersMerged++;
}
mergeLast = true;
}
else if (ho1.IsCircle && ho2.IsCircle && (ho1.Pos - ho2.Pos).Length <= arg.Leniency)
{
var mergedAnchors = new List <Vector2> {
ho1.Pos, ho2.Pos
};
var mergedPath = new SliderPath(arg.LinearOnLinear ? PathType.Linear : PathType.Bezier, mergedAnchors.ToArray(), (ho1.Pos - ho2.Pos).Length);
ho1.SliderPath = mergedPath;
ho1.IsCircle = false;
ho1.IsSlider = true;
ho1.Repeat = 1;
ho1.EdgeHitsounds = new List <int> {
ho1.GetHitsounds(), ho2.GetHitsounds()
};
ho1.EdgeSampleSets = new List <SampleSet> {
ho1.SampleSet, ho2.SampleSet
};
ho1.EdgeAdditionSets = new List <SampleSet> {
ho1.AdditionSet, ho2.AdditionSet
};
beatmap.HitObjects.Remove(ho2);
markedObjects.Remove(ho2);
i--;
slidersMerged++;
if (!mergeLast)
{
slidersMerged++;
}
mergeLast = true;
}
else
{
mergeLast = false;
}
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(i / markedObjects.Count);
}
}
// Save the file
editor.SaveFile();
}
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
if (arg.Quick)
{
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, editorRead));
}
// Make an accurate message
var message = "";
if (Math.Abs(slidersMerged) == 1)
{
message += "Successfully merged " + slidersMerged + " slider!";
}
else
{
message += "Successfully merged " + slidersMerged + " sliders!";
}
return(arg.Quick ? "" : message);
}
protected void OnRunFinished()
{
RunFinished?.Invoke(this, EventArgs.Empty);
}
private string Complete_Sliders(SliderCompletionatorVm arg, BackgroundWorker worker, DoWorkEventArgs _)
{
int slidersCompleted = 0;
var reader = EditorReaderStuff.GetFullEditorReaderOrNot(out var editorReaderException1);
if (arg.ImportModeSetting == SliderCompletionatorVm.ImportMode.Selected && editorReaderException1 != null)
{
throw new Exception("Could not fetch selected hit objects.", editorReaderException1);
}
foreach (string path in arg.Paths)
{
var editor = EditorReaderStuff.GetNewestVersionOrNot(path, reader, out var selected, out var editorReaderException2);
if (arg.ImportModeSetting == SliderCompletionatorVm.ImportMode.Selected && editorReaderException2 != null)
{
throw new Exception("Could not fetch selected hit objects.", editorReaderException2);
}
Beatmap beatmap = editor.Beatmap;
Timing timing = beatmap.BeatmapTiming;
List <HitObject> markedObjects = arg.ImportModeSetting == SliderCompletionatorVm.ImportMode.Selected ? selected :
arg.ImportModeSetting == SliderCompletionatorVm.ImportMode.Bookmarked ? beatmap.GetBookmarkedObjects() :
arg.ImportModeSetting == SliderCompletionatorVm.ImportMode.Time ? beatmap.QueryTimeCode(arg.TimeCode).ToList() :
beatmap.HitObjects;
for (int i = 0; i < markedObjects.Count; i++)
{
HitObject ho = markedObjects[i];
if (ho.IsSlider)
{
double oldSpatialLength = ho.PixelLength;
double newSpatialLength = arg.SpatialLength != -1 ? ho.GetSliderPath(fullLength: true).Distance *arg.SpatialLength : oldSpatialLength;
double oldTemporalLength = timing.CalculateSliderTemporalLength(ho.Time, ho.PixelLength);
double newTemporalLength = arg.TemporalLength != -1 ? timing.GetMpBAtTime(ho.Time) * arg.TemporalLength : oldTemporalLength;
double oldSv = timing.GetSvAtTime(ho.Time);
double newSv = oldSv / ((newSpatialLength / oldSpatialLength) / (newTemporalLength / oldTemporalLength));
if (double.IsNaN(newSv))
{
throw new Exception("Encountered NaN slider velocity. Make sure none of the inputs are zero.");
}
ho.SliderVelocity = newSv;
ho.PixelLength = newSpatialLength;
// Scale anchors to completion
if (arg.MoveAnchors)
{
ho.SetAllCurvePoints(SliderPathUtil.MoveAnchorsToLength(
ho.GetAllCurvePoints(), ho.SliderType, ho.PixelLength, out var pathType));
ho.SliderType = pathType;
}
slidersCompleted++;
}
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(i / markedObjects.Count);
}
}
// Reconstruct SliderVelocity
List <TimingPointsChange> timingPointsChanges = new List <TimingPointsChange>();
// Add Hitobject stuff
foreach (HitObject ho in beatmap.HitObjects)
{
if (ho.IsSlider) // SliderVelocity changes
{
TimingPoint tp = ho.TimingPoint.Copy();
tp.Offset = ho.Time;
tp.MpB = ho.SliderVelocity;
timingPointsChanges.Add(new TimingPointsChange(tp, mpb: true));
}
}
// Add the new SliderVelocity changes
TimingPointsChange.ApplyChanges(timing, timingPointsChanges);
// Save the file
editor.SaveFile();
}
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
if (arg.Quick)
{
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, reader != null));
}
// Make an accurate message
string message = "";
if (Math.Abs(slidersCompleted) == 1)
{
message += "Successfully completed " + slidersCompleted + " slider!";
}
else
{
message += "Successfully completed " + slidersCompleted + " sliders!";
}
return(arg.Quick ? "" : message);
}
public void Handle(RunFinished @event)
{
stopwatch.Stop();
ElapsedTime.Value = stopwatch.Elapsed;
}
private void ViewModelRunFinished(object sender, EventArgs args)
{
RunFinished?.Invoke(this, EventArgs.Empty);
}
private string Merge_Sliders(SliderMergerVm arg, BackgroundWorker worker)
{
var slidersMerged = 0;
var reader = EditorReaderStuff.GetFullEditorReaderOrNot(out var editorReaderException1);
if (arg.ImportModeSetting == 0 && editorReaderException1 != null)
{
throw new Exception("Could not fetch selected hit objects.", editorReaderException1);
}
foreach (var path in arg.Paths)
{
var editor = EditorReaderStuff.GetNewestVersionOrNot(path, reader, out var selected, out var editorReaderException2);
if (arg.ImportModeSetting == SliderMergerVm.ImportMode.Selected && editorReaderException2 != null)
{
throw new Exception("Could not fetch selected hit objects.", editorReaderException2);
}
var beatmap = editor.Beatmap;
var markedObjects = arg.ImportModeSetting == 0 ? selected :
arg.ImportModeSetting == SliderMergerVm.ImportMode.Bookmarked ? beatmap.GetBookmarkedObjects() :
arg.ImportModeSetting == SliderMergerVm.ImportMode.Time ? beatmap.QueryTimeCode(arg.TimeCode).ToList() :
beatmap.HitObjects;
var mergeLast = false;
for (var i = 0; i < markedObjects.Count - 1; i++)
{
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(i / markedObjects.Count);
}
var ho1 = markedObjects[i];
var ho2 = markedObjects[i + 1];
var lastPos1 = ho1.IsSlider
? arg.MergeOnSliderEnd ? ho1.GetSliderPath().PositionAt(1) : ho1.CurvePoints.Last()
: ho1.Pos;
double dist = Vector2.Distance(lastPos1, ho2.Pos);
if (dist > arg.Leniency)
{
mergeLast = false;
continue;
}
if (ho1.IsSlider && ho2.IsSlider)
{
if (arg.MergeOnSliderEnd)
{
// In order to merge on the slider end we first move the anchors such that the last anchor is exactly on the slider end
// After that merge as usual
ho1.SetAllCurvePoints(SliderPathUtil.MoveAnchorsToLength(
ho1.GetAllCurvePoints(), ho1.SliderType, ho1.PixelLength, out var pathType));
ho1.SliderType = pathType;
}
var sp1 = BezierConverter.ConvertToBezier(ho1.SliderPath).ControlPoints;
var sp2 = BezierConverter.ConvertToBezier(ho2.SliderPath).ControlPoints;
double extraLength = 0;
switch (arg.ConnectionModeSetting)
{
case SliderMergerVm.ConnectionMode.Move:
Move(sp2, sp1.Last() - sp2.First());
break;
case SliderMergerVm.ConnectionMode.Linear:
sp1.Add(sp1.Last());
sp1.Add(sp2.First());
extraLength = (ho1.CurvePoints.Last() - ho2.Pos).Length;
break;
}
var mergedAnchors = sp1.Concat(sp2).ToList();
mergedAnchors.Round();
var linearLinear = arg.LinearOnLinear && IsLinearBezier(sp1) && IsLinearBezier(sp2);
if (linearLinear)
{
for (var j = 0; j < mergedAnchors.Count - 1; j++)
{
if (mergedAnchors[j] != mergedAnchors[j + 1])
{
continue;
}
mergedAnchors.RemoveAt(j);
j--;
}
}
var mergedPath = new SliderPath(linearLinear ? PathType.Linear : PathType.Bezier, mergedAnchors.ToArray(),
ho1.PixelLength + ho2.PixelLength + extraLength);
ho1.SliderPath = mergedPath;
beatmap.HitObjects.Remove(ho2);
markedObjects.Remove(ho2);
i--;
slidersMerged++;
if (!mergeLast)
{
slidersMerged++;
}
mergeLast = true;
}
else if (ho1.IsSlider && ho2.IsCircle)
{
var sp1 = BezierConverter.ConvertToBezier(ho1.SliderPath).ControlPoints;
sp1.Add(sp1.Last());
sp1.Add(ho2.Pos);
var extraLength = (ho1.CurvePoints.Last() - ho2.Pos).Length;
var mergedAnchors = sp1;
mergedAnchors.Round();
var linearLinear = arg.LinearOnLinear && IsLinearBezier(sp1);
if (linearLinear)
{
for (var j = 0; j < mergedAnchors.Count - 1; j++)
{
if (mergedAnchors[j] != mergedAnchors[j + 1])
{
continue;
}
mergedAnchors.RemoveAt(j);
j--;
}
}
var mergedPath = new SliderPath(linearLinear ? PathType.Linear : PathType.Bezier, mergedAnchors.ToArray(), ho1.PixelLength + extraLength);
ho1.SliderPath = mergedPath;
beatmap.HitObjects.Remove(ho2);
markedObjects.Remove(ho2);
i--;
slidersMerged++;
if (!mergeLast)
{
slidersMerged++;
}
mergeLast = true;
}
else if (ho1.IsCircle && ho2.IsSlider)
{
var sp2 = BezierConverter.ConvertToBezier(ho2.SliderPath).ControlPoints;
sp2.Insert(0, sp2.First());
sp2.Insert(0, ho1.Pos);
var extraLength = (ho1.Pos - ho2.Pos).Length;
var mergedAnchors = sp2;
mergedAnchors.Round();
var linearLinear = arg.LinearOnLinear && IsLinearBezier(sp2);
if (linearLinear)
{
for (var j = 0; j < mergedAnchors.Count - 1; j++)
{
if (mergedAnchors[j] != mergedAnchors[j + 1])
{
continue;
}
mergedAnchors.RemoveAt(j);
j--;
}
}
var mergedPath = new SliderPath(linearLinear ? PathType.Linear : PathType.Bezier, mergedAnchors.ToArray(), ho2.PixelLength + extraLength);
ho2.SliderPath = mergedPath;
beatmap.HitObjects.Remove(ho1);
markedObjects.Remove(ho1);
i--;
slidersMerged++;
if (!mergeLast)
{
slidersMerged++;
}
mergeLast = true;
}
else if (ho1.IsCircle && ho2.IsCircle)
{
var mergedAnchors = new List <Vector2> {
ho1.Pos, ho2.Pos
};
var mergedPath = new SliderPath(arg.LinearOnLinear ? PathType.Linear : PathType.Bezier, mergedAnchors.ToArray(), (ho1.Pos - ho2.Pos).Length);
ho1.SliderPath = mergedPath;
ho1.IsCircle = false;
ho1.IsSlider = true;
ho1.Repeat = 1;
ho1.EdgeHitsounds = new List <int> {
ho1.GetHitsounds(), ho2.GetHitsounds()
};
ho1.EdgeSampleSets = new List <SampleSet> {
ho1.SampleSet, ho2.SampleSet
};
ho1.EdgeAdditionSets = new List <SampleSet> {
ho1.AdditionSet, ho2.AdditionSet
};
beatmap.HitObjects.Remove(ho2);
markedObjects.Remove(ho2);
i--;
slidersMerged++;
if (!mergeLast)
{
slidersMerged++;
}
mergeLast = true;
}
else
{
mergeLast = false;
}
}
// Save the file
editor.SaveFile();
}
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
if (arg.Quick)
{
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, reader != null));
}
// Make an accurate message
var message = "";
if (Math.Abs(slidersMerged) == 1)
{
message += "Successfully merged " + slidersMerged + " slider!";
}
else
{
message += "Successfully merged " + slidersMerged + " sliders!";
}
return(arg.Quick ? "" : message);
}
private string Adjust_Timing(Arguments arg, BackgroundWorker worker, DoWorkEventArgs _)
{
// Count
int RedlinesAdded = 0;
bool editorRead = EditorReaderStuff.TryGetFullEditorReader(out var reader);
foreach (string path in arg.Paths)
{
// Open beatmap
var editor = EditorReaderStuff.GetBeatmapEditor(path, reader, editorRead);
Beatmap beatmap = editor.Beatmap;
Timing timing = beatmap.BeatmapTiming;
// Get all the times to snap
List <Marker> markers = new List <Marker>();
if (arg.Objects)
{
foreach (HitObject ho in beatmap.HitObjects)
{
markers.Add(new Marker(ho.Time));
}
}
if (arg.Bookmarks)
{
foreach (double time in beatmap.GetBookmarks())
{
markers.Add(new Marker(time));
}
}
if (arg.Greenlines)
{
// Get the offsets of greenlines
foreach (TimingPoint tp in timing.TimingPoints)
{
if (!tp.Uninherited)
{
markers.Add(new Marker(tp.Offset));
}
}
}
if (arg.Redlines)
{
// Get the offsets of redlines
foreach (TimingPoint tp in timing.TimingPoints)
{
if (tp.Uninherited)
{
markers.Add(new Marker(tp.Offset));
}
}
}
// Update progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(20);
}
// Sort the markers
markers = markers.OrderBy(o => o.Time).ToList();
// Calculate the beats between time and the last time or redline for each time
// Time the same is 0
// Time a little after is smallest snap
for (int i = 0; i < markers.Count; i++)
{
Marker marker = markers[i];
double time = marker.Time;
TimingPoint redline = timing.GetRedlineAtTime(time - 1);
// Resnap to that redline only
double resnappedTime = timing.Resnap(time, arg.Snap1, arg.Snap2, false, redline);
// Calculate beats from the redline
double beatsFromRedline = (resnappedTime - redline.Offset) / redline.MpB;
// Avoid problems
if (MathHelper.ApproximatelyEquivalent(beatsFromRedline, 0, 0.0001))
{
beatsFromRedline = 1 / Math.Max(arg.Snap1, arg.Snap2);
}
if (time == redline.Offset)
{
beatsFromRedline = 0;
}
// Initialize the beats from last marker
double beatsFromLastMarker = beatsFromRedline;
// Get the times between redline and this time
List <Marker> timesBefore = markers.Where(o => o.Time <time && o.Time> redline.Offset).ToList();
if (timesBefore.Count > 0)
{
// Get the last time info
double lastTime = timesBefore.Last().Time;
double resnappedTimeL = timing.Resnap(lastTime, arg.Snap1, arg.Snap2, false);
// Change the beats from last marker
beatsFromLastMarker = (resnappedTime - resnappedTimeL) / redline.MpB;
// Avoid problems
if (MathHelper.ApproximatelyEquivalent(beatsFromLastMarker, 0, 0.0001))
{
beatsFromLastMarker = 1f / Math.Max(arg.Snap1, arg.Snap2);
}
if (lastTime == time)
{
beatsFromLastMarker = 0;
}
}
// Set the variable
marker.BeatsFromLastMarker = beatsFromLastMarker;
}
// Remove redlines except the first redline
if (!arg.Redlines)
{
var first = timing.TimingPoints.FirstOrDefault(o => o.Uninherited);
timing.TimingPoints.RemoveAll(o => o.Uninherited && o != first);
}
// Update progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(40);
}
// Loop through all the markers
for (int i = 0; i < markers.Count; i++)
{
Marker marker = markers[i];
double time = marker.Time;
TimingPoint redline = timing.GetRedlineAtTime(time - 1);
double beatsFromLastMarker = arg.BeatsBetween != -1 ? arg.BeatsBetween : marker.BeatsFromLastMarker;
// Skip if 0 beats from last marker
if (beatsFromLastMarker == 0)
{
continue;
}
// Get the times between redline and this time including this time
List <Marker> markersBefore = markers.Where(o => o.Time <time && o.Time> redline.Offset).ToList();
markersBefore.Add(marker);
// Calculate MpB
// Average MpB from timesBefore and use time from redline
double mpb = 0;
double beatsFromRedline = 0;
foreach (Marker markerB in markersBefore)
{
beatsFromRedline += markerB.BeatsFromLastMarker;
mpb += GetMpB(markerB.Time - redline.Offset, beatsFromRedline, 0);
}
mpb /= markersBefore.Count;
// Check if this MpB doesn't make the markers go offsnap too far
bool canChangeRedline = CheckMpB(mpb, markersBefore, redline, arg);
// Make changes
if (canChangeRedline)
{
// Round the MpB to human values first
mpb = HumanRoundMpB(mpb, markersBefore, redline, arg);
// Change the MpB of the redline
redline.MpB = mpb;
}
else
{
// Get the last time info and not the current
markersBefore.Remove(marker);
double lastTime = markersBefore.Last().Time;
// Make new redline
TimingPoint newRedline = redline.Copy();
TimingPoint lastHitsounds = timing.GetTimingPointAtTime(lastTime + 5);
newRedline.Offset = lastTime;
newRedline.OmitFirstBarLine = arg.OmitBarline; // Set omit to the argument
newRedline.Kiai = lastHitsounds.Kiai;
newRedline.SampleIndex = lastHitsounds.SampleIndex;
newRedline.SampleSet = lastHitsounds.SampleSet;
newRedline.Volume = lastHitsounds.Volume;
timing.TimingPoints.Add(newRedline);
timing.Sort();
// Set the MpB
newRedline.MpB = GetMpB(time - lastTime, beatsFromLastMarker, arg.Leniency);
// Update the counter
RedlinesAdded++;
}
// Update progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(i * 60 / markers.Count + 40);
}
}
// Save the file
editor.SaveFile();
}
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do QuickRun stuff
if (arg.Quick)
{
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, editorRead));
}
// Make an accurate message
string message = "Successfully added ";
message += RedlinesAdded;
if (Math.Abs(RedlinesAdded) == 1)
{
message += " redlines!";
}
else
{
message += " redlines!";
}
return(arg.Quick ? string.Empty : message);
}
private string Complete_Sliders(Arguments arg, BackgroundWorker worker, DoWorkEventArgs _)
{
int slidersCompleted = 0;
bool editorRead = EditorReaderStuff.TryGetFullEditorReader(out var reader);
foreach (string path in arg.Paths)
{
var editor = EditorReaderStuff.GetBeatmapEditor(path, reader, editorRead, out var selected, out var editorActuallyRead);
if (arg.SelectionMode == 0 && !editorActuallyRead)
{
return(EditorReaderStuff.SelectedObjectsReadFailText);
}
Beatmap beatmap = editor.Beatmap;
Timing timing = beatmap.BeatmapTiming;
List <HitObject> markedObjects = arg.SelectionMode == 0 ? selected :
arg.SelectionMode == 1 ? beatmap.GetBookmarkedObjects() :
beatmap.HitObjects;
for (int i = 0; i < markedObjects.Count; i++)
{
HitObject ho = markedObjects[i];
if (ho.IsSlider)
{
double oldSpatialLength = ho.PixelLength;
double newSpatialLength = arg.SpatialLength != -1 ? ho.GetSliderPath(fullLength: true).Distance *arg.SpatialLength : oldSpatialLength;
double oldTemporalLength = timing.CalculateSliderTemporalLength(ho.Time, ho.PixelLength);
double newTemporalLength = arg.TemporalLength != -1 ? timing.GetMpBAtTime(ho.Time) * arg.TemporalLength : oldTemporalLength;
double oldSv = timing.GetSvAtTime(ho.Time);
double newSv = oldSv / ((newSpatialLength / oldSpatialLength) / (newTemporalLength / oldTemporalLength));
ho.SliderVelocity = newSv;
ho.PixelLength = newSpatialLength;
// Scale anchors to completion
if (arg.MoveAnchors)
{
ho.SetAllCurvePoints(SliderPathUtil.MoveAnchorsToLength(
ho.GetAllCurvePoints(), ho.SliderType, ho.PixelLength, out var pathType));
ho.SliderType = pathType;
}
slidersCompleted++;
}
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(i / markedObjects.Count);
}
}
// Reconstruct SliderVelocity
List <TimingPointsChange> timingPointsChanges = new List <TimingPointsChange>();
// Add Hitobject stuff
foreach (HitObject ho in beatmap.HitObjects)
{
if (ho.IsSlider) // SliderVelocity changes
{
TimingPoint tp = ho.TimingPoint.Copy();
tp.Offset = ho.Time;
tp.MpB = ho.SliderVelocity;
timingPointsChanges.Add(new TimingPointsChange(tp, mpb: true));
}
}
// Add the new SliderVelocity changes
TimingPointsChange.ApplyChanges(timing, timingPointsChanges);
// Save the file
editor.SaveFile();
}
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
if (arg.Quick)
{
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, editorRead));
}
// Make an accurate message
string message = "";
if (Math.Abs(slidersCompleted) == 1)
{
message += "Successfully completed " + slidersCompleted + " slider!";
}
else
{
message += "Successfully completed " + slidersCompleted + " sliders!";
}
return(arg.Quick ? "" : message);
}
private string ExportPattern(PatternGalleryVm args, BackgroundWorker worker, DoWorkEventArgs _)
{
EditorReader reader;
double exportTime = 0;
bool usePatternOffset = false;
switch (args.ExportTimeMode)
{
case ExportTimeMode.Current:
try {
reader = EditorReaderStuff.GetFullEditorReader();
exportTime = reader.EditorTime();
}
catch (Exception e) {
throw new Exception("Could not fetch the current editor time.", e);
}
break;
case ExportTimeMode.Pattern:
reader = EditorReaderStuff.GetFullEditorReaderOrNot();
usePatternOffset = true;
break;
case ExportTimeMode.Custom:
reader = EditorReaderStuff.GetFullEditorReaderOrNot();
exportTime = args.CustomExportTime;
break;
default:
throw new ArgumentOutOfRangeException(nameof(ExportTimeMode), "Invalid value encountered");
}
var editor = EditorReaderStuff.GetNewestVersionOrNot(args.Paths[0], reader);
var patternCount = args.Patterns.Count(o => o.IsSelected);
if (patternCount == 0)
{
throw new Exception("No pattern has been selected to export.");
}
var patternPlacer = args.OsuPatternPlacer;
foreach (var pattern in args.Patterns.Where(o => o.IsSelected))
{
var patternBeatmap = pattern.GetPatternBeatmap(args.FileHandler);
if (usePatternOffset)
{
patternPlacer.PlaceOsuPattern(patternBeatmap, editor.Beatmap, protectBeatmapPattern: false);
}
else
{
patternPlacer.PlaceOsuPatternAtTime(patternBeatmap, editor.Beatmap, exportTime, false);
}
// Increase pattern use count and time
pattern.UseCount++;
pattern.LastUsedTime = DateTime.Now;
}
editor.SaveFile();
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, reader != null, args.Quick));
return("Successfully exported pattern!");
}
public void Handle(RunFinished @event)
{
testExplorerModel.CanEditTree.Value = true;
}
private string Complete_Sliders(SliderCompletionatorVm arg, BackgroundWorker worker, DoWorkEventArgs _)
{
int slidersCompleted = 0;
var reader = EditorReaderStuff.GetFullEditorReaderOrNot(out var editorReaderException1);
if (arg.ImportModeSetting == SliderCompletionatorVm.ImportMode.Selected && editorReaderException1 != null)
{
throw new Exception("Could not fetch selected hit objects.", editorReaderException1);
}
foreach (string path in arg.Paths)
{
var editor = EditorReaderStuff.GetNewestVersionOrNot(path, reader, out var selected, out var editorReaderException2);
if (arg.ImportModeSetting == SliderCompletionatorVm.ImportMode.Selected && editorReaderException2 != null)
{
throw new Exception("Could not fetch selected hit objects.", editorReaderException2);
}
Beatmap beatmap = editor.Beatmap;
Timing timing = beatmap.BeatmapTiming;
List <HitObject> markedObjects = arg.ImportModeSetting switch {
SliderCompletionatorVm.ImportMode.Selected => selected,
SliderCompletionatorVm.ImportMode.Bookmarked => beatmap.GetBookmarkedObjects(),
SliderCompletionatorVm.ImportMode.Time => beatmap.QueryTimeCode(arg.TimeCode).ToList(),
SliderCompletionatorVm.ImportMode.Everything => beatmap.HitObjects,
_ => throw new ArgumentException("Unexpected import mode.")
};
for (int i = 0; i < markedObjects.Count; i++)
{
HitObject ho = markedObjects[i];
if (ho.IsSlider)
{
double mpb = timing.GetMpBAtTime(ho.Time);
double oldDuration = timing.CalculateSliderTemporalLength(ho.Time, ho.PixelLength);
double oldLength = ho.PixelLength;
double oldSv = timing.GetSvAtTime(ho.Time);
double newDuration = arg.UseEndTime ? arg.EndTime == -1 ? oldDuration : arg.EndTime - ho.Time :
arg.Duration == -1 ? oldDuration : timing.WalkBeatsInMillisecondTime(arg.Duration, ho.Time) - ho.Time;
double newLength = arg.Length == -1 ? oldLength : ho.GetSliderPath(fullLength: true).Distance *arg.Length;
double newSv = arg.SliderVelocity == -1 ? oldSv : -100 / arg.SliderVelocity;
switch (arg.FreeVariableSetting)
{
case SliderCompletionatorVm.FreeVariable.Velocity:
newSv = -10000 * timing.SliderMultiplier * newDuration / (newLength * mpb);
break;
case SliderCompletionatorVm.FreeVariable.Duration:
// This actually doesn't get used anymore because the .osu doesn't store the duration
newDuration = newLength * newSv * mpb / (-10000 * timing.SliderMultiplier);
break;
case SliderCompletionatorVm.FreeVariable.Length:
newLength = -10000 * timing.SliderMultiplier * newDuration / (newSv * mpb);
break;
default:
throw new ArgumentException("Unexpected free variable setting.");
}
if (double.IsNaN(newSv))
{
throw new Exception("Encountered NaN slider velocity. Make sure none of the inputs are zero.");
}
if (newDuration < 0)
{
throw new Exception("Encountered slider with negative duration. Make sure the end time is greater than the end time of all selected sliders.");
}
ho.SliderVelocity = newSv;
ho.PixelLength = newLength;
// Scale anchors to completion
if (arg.MoveAnchors)
{
ho.SetAllCurvePoints(SliderPathUtil.MoveAnchorsToLength(
ho.GetAllCurvePoints(), ho.SliderType, ho.PixelLength, out var pathType));
ho.SliderType = pathType;
}
slidersCompleted++;
}
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(i / markedObjects.Count);
}
}
// Reconstruct SliderVelocity
List <TimingPointsChange> timingPointsChanges = new List <TimingPointsChange>();
// Add Hitobject stuff
foreach (HitObject ho in beatmap.HitObjects)
{
// SliderVelocity changes
if (ho.IsSlider)
{
if (markedObjects.Contains(ho) && arg.DelegateToBpm)
{
var tpAfter = timing.GetRedlineAtTime(ho.Time).Copy();
var tpOn = tpAfter.Copy();
tpAfter.Offset = ho.Time;
tpOn.Offset = ho.Time - 1; // This one will be on the slider
tpAfter.OmitFirstBarLine = true;
tpOn.OmitFirstBarLine = true;
// Express velocity in BPM
tpOn.MpB *= ho.SliderVelocity / -100;
// NaN SV results in removal of slider ticks
ho.SliderVelocity = arg.RemoveSliderTicks ? double.NaN : -100;
// Add redlines
timingPointsChanges.Add(new TimingPointsChange(tpOn, mpb: true, unInherited: true, omitFirstBarLine: true, fuzzyness: Precision.DOUBLE_EPSILON));
timingPointsChanges.Add(new TimingPointsChange(tpAfter, mpb: true, unInherited: true, omitFirstBarLine: true, fuzzyness: Precision.DOUBLE_EPSILON));
ho.Time -= 1;
}
TimingPoint tp = ho.TimingPoint.Copy();
tp.Offset = ho.Time;
tp.MpB = ho.SliderVelocity;
timingPointsChanges.Add(new TimingPointsChange(tp, mpb: true, fuzzyness: Precision.DOUBLE_EPSILON));
}
}
// Add the new SliderVelocity changes
TimingPointsChange.ApplyChanges(timing, timingPointsChanges);
// Save the file
editor.SaveFile();
}
// Complete progressbar
if (worker != null && worker.WorkerReportsProgress)
{
worker.ReportProgress(100);
}
// Do stuff
RunFinished?.Invoke(this, new RunToolCompletedEventArgs(true, reader != null, arg.Quick));
// Make an accurate message
string message = "";
if (Math.Abs(slidersCompleted) == 1)
{
message += "Successfully completed " + slidersCompleted + " slider!";
}
else
{
message += "Successfully completed " + slidersCompleted + " sliders!";
}
return(arg.Quick ? "" : message);
}
