public static float LiveTickToTime(uint position, float resolution, BPM initialBpm, IList <SyncTrack> synctrack)
{
double time = 0;
BPM prevBPM = initialBpm;
foreach (SyncTrack syncTrack in synctrack)
{
BPM bpmInfo = syncTrack as BPM;
if (bpmInfo == null)
{
continue;
}
if (bpmInfo.tick > position)
{
break;
}
else
{
time += TickFunctions.DisToTime(prevBPM.tick, bpmInfo.tick, resolution, prevBPM.value / 1000.0f);
prevBPM = bpmInfo;
}
}
time += TickFunctions.DisToTime(prevBPM.tick, position, resolution, prevBPM.value / 1000.0f);
return((float)time);
}
/// <summary>
/// Converts a tick position into the time it will appear in the song.
/// </summary>
/// <param name="position">Tick position.</param>
/// <param name="resolution">Ticks per beat, usually provided from the resolution song of a Song class.</param>
/// <returns>Returns the time in seconds.</returns>
public float TickToTime(uint position, float resolution)
{
int previousBPMPos = SongObjectHelper.FindClosestPosition(position, bpms);
if (bpms[previousBPMPos].tick > position)
{
--previousBPMPos;
}
BPM prevBPM = bpms[previousBPMPos];
float time = prevBPM.assignedTime;
time += (float)TickFunctions.DisToTime(prevBPM.tick, position, resolution, prevBPM.value / 1000.0f);
return(time);
}
bool AdjustForAnchors(uint newBpmValue)
{
ChartEditor.GetInstance().songObjectPoolManager.SetAllPoolsDirty();
int pos = SongObjectHelper.FindObjectPosition(currentBPM, currentBPM.song.bpms);
if (pos != SongObjectHelper.NOTFOUND)
{
BPM anchor = null;
BPM bpmToAdjust = null;
int anchorPos = 0;
// Get the next anchor
for (int i = pos + 1; i < currentBPM.song.bpms.Count; ++i)
{
if (currentBPM.song.bpms[i].anchor != null)
{
anchor = currentBPM.song.bpms[i];
anchorPos = i;
// Get the bpm before that anchor
bpmToAdjust = currentBPM.song.bpms[i - 1];
break;
}
}
if (anchor == null || bpmToAdjust == currentBPM)
{
if (currentBPM.value != newBpmValue)
{
ChartEditor.isDirty = true;
}
currentBPM.value = newBpmValue;
return(true);
}
// Calculate the minimum the bpm can adjust to
const float MIN_DT = 0.01f;
float bpmTime = (float)anchor.anchor - MIN_DT;
float resolution = currentBPM.song.resolution;
// Calculate the time of the 2nd bpm pretending that the adjustable one is super close to the anchor
for (int i = anchorPos - 1; i > pos + 1; --i)
{
// Calculate up until 2 bpms before the anchor
// Re-hash of the actual time calculation equation in Song.cs
bpmTime -= (float)TickFunctions.DisToTime(currentBPM.song.bpms[i - 1].tick, currentBPM.song.bpms[i].tick, resolution, currentBPM.song.bpms[i - 1].value / 1000.0f);
}
float timeBetweenFirstAndSecond = bpmTime - currentBPM.time;
// What bpm will result in this exact time difference?
uint minVal = (uint)(Mathf.Ceil((float)TickFunctions.DisToBpm(currentBPM.song.bpms[pos].tick, currentBPM.song.bpms[pos + 1].tick, timeBetweenFirstAndSecond, currentBPM.song.resolution)) * 1000);
if (newBpmValue < minVal)
{
newBpmValue = minVal;
}
if (anchorAdjustment == null)
{
anchorAdjustment = bpmToAdjust;
anchorAdjustmentOriginalValue = new BPM(bpmToAdjust);
}
BPM anchorBPM = anchor;
uint oldValue = currentBPM.value;
currentBPM.value = newBpmValue;
double deltaTime = (double)anchorBPM.anchor - editor.currentSong.LiveTickToTime(bpmToAdjust.tick, editor.currentSong.resolution);
uint newValue = (uint)Mathf.Round((float)(TickFunctions.DisToBpm(bpmToAdjust.tick, anchorBPM.tick, deltaTime, editor.currentSong.resolution) * 1000.0d));
currentBPM.value = oldValue;
if (deltaTime > 0 && newValue > 0)
{
if (newValue != 0)
{
bpmToAdjust.value = newValue;
}
currentBPM.value = newBpmValue;
ChartEditor.isDirty = true;
}
}
else
{
if (currentBPM.value != newBpmValue)
{
ChartEditor.isDirty = true;
}
currentBPM.value = newBpmValue;
}
return(true);
}
static MoonscraperEngine.ICommand GenerateCommandsAdjustedForAnchors(BPM currentBPM, uint desiredBpmValue)
{
List <SongEditCommand> commands = new List <SongEditCommand>();
int pos = SongObjectHelper.FindObjectPosition(currentBPM, currentBPM.song.bpms);
if (pos != SongObjectHelper.NOTFOUND)
{
BPM anchor = null;
BPM bpmToAdjust = null;
int anchorPos = 0;
// Get the next anchor
for (int i = pos + 1; i < currentBPM.song.bpms.Count; ++i)
{
if (currentBPM.song.bpms[i].anchor != null)
{
anchor = currentBPM.song.bpms[i];
anchorPos = i;
// Get the bpm before that anchor
bpmToAdjust = currentBPM.song.bpms[i - 1];
break;
}
}
if (anchor == null || bpmToAdjust == currentBPM)
{
commands.Add(new SongEditModify <BPM>(currentBPM, new BPM(currentBPM.tick, desiredBpmValue, currentBPM.anchor)));
return(new BatchedSongEditCommand(commands));
}
// Calculate the minimum the bpm can adjust to
const float MIN_DT = 0.01f;
float bpmTime = (float)anchor.anchor - MIN_DT;
float resolution = currentBPM.song.resolution;
// Calculate the time of the 2nd bpm pretending that the adjustable one is super close to the anchor
for (int i = anchorPos - 1; i > pos + 1; --i)
{
// Calculate up until 2 bpms before the anchor
// Re-hash of the actual time calculation equation in Song.cs
bpmTime -= (float)TickFunctions.DisToTime(currentBPM.song.bpms[i - 1].tick, currentBPM.song.bpms[i].tick, resolution, currentBPM.song.bpms[i - 1].value / 1000.0f);
}
float timeBetweenFirstAndSecond = bpmTime - currentBPM.time;
// What bpm will result in this exact time difference?
uint minVal = (uint)(Mathf.Ceil((float)TickFunctions.DisToBpm(currentBPM.song.bpms[pos].tick, currentBPM.song.bpms[pos + 1].tick, timeBetweenFirstAndSecond, currentBPM.song.resolution)) * 1000);
if (desiredBpmValue < minVal)
{
desiredBpmValue = minVal;
}
BPM anchorBPM = anchor;
uint oldValue = currentBPM.value;
ChartEditor editor = ChartEditor.Instance;
currentBPM.value = desiredBpmValue; // Very much cheating, better to not do this
double deltaTime = (double)anchorBPM.anchor - editor.currentSong.LiveTickToTime(bpmToAdjust.tick, editor.currentSong.resolution);
uint newValue = (uint)Mathf.Round((float)(TickFunctions.DisToBpm(bpmToAdjust.tick, anchorBPM.tick, deltaTime, editor.currentSong.resolution) * 1000.0d));
currentBPM.value = oldValue;
uint finalValue = oldValue;
if (deltaTime > 0 && newValue > 0)
{
if (newValue != 0)
{
commands.Add(new SongEditModify <BPM>(bpmToAdjust, new BPM(bpmToAdjust.tick, newValue, bpmToAdjust.anchor)));
}
finalValue = desiredBpmValue;
}
desiredBpmValue = finalValue;
}
if (desiredBpmValue == currentBPM.value)
{
return(null);
}
commands.Add(new SongEditModify <BPM>(currentBPM, new BPM(currentBPM.tick, desiredBpmValue, currentBPM.anchor)));
return(new BatchedSongEditCommand(commands));
}
