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Switch-Toolbox/Switch_FileFormatsMain/FileFormats/BFRES/Bfres Structs/CurveHelper.cs
2019-06-03 20:04:15 -04:00

226 lines
9.9 KiB
C#

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using Syroot.NintenTools.NSW.Bfres;
using Switch_Toolbox.Library;
using ResU = Syroot.NintenTools.Bfres;
using Switch_Toolbox.Library.Animations;
namespace Bfres.Structs
{
public class CurveHelper
{
public static AnimCurveFrameType GetFrameType(uint FrameCount)
{
if (FrameCount < byte.MaxValue) return AnimCurveFrameType.Byte;
if (FrameCount < Int16.MaxValue) return AnimCurveFrameType.Decimal10x5;
else return AnimCurveFrameType.Single;
}
public static AnimCurveKeyType GetKeyType(float Value)
{
if (Value < byte.MaxValue) return AnimCurveKeyType.SByte;
if (Value < Int16.MaxValue) return AnimCurveKeyType.Int16;
else return AnimCurveKeyType.Single;
}
public static Animation.KeyGroup CreateTrackWiiU(ResU.AnimCurve animCurve)
{
Animation.KeyGroup track = new Animation.KeyGroup();
track.AnimDataOffset = animCurve.AnimDataOffset;
track.Scale = animCurve.Scale;
track.Offset = animCurve.Offset;
track.StartFrame = animCurve.StartFrame;
track.EndFrame = animCurve.EndFrame;
track.Delta = animCurve.Delta;
float tanscale = animCurve.Delta;
if (tanscale == 0)
tanscale = 1;
if (animCurve.Scale == 0)
animCurve.Scale = 1;
for (int i = 0; i < (ushort)animCurve.Frames.Length; i++)
{
switch (animCurve.CurveType)
{
case ResU.AnimCurveType.Cubic: //4 elements are stored for cubic
track.InterpolationType = InterpolationType.HERMITE;
track.Keys.Add(new Animation.KeyFrame()
{
IsKeyed = true,
InterType = InterpolationType.HERMITE,
Frame = (int)animCurve.Frames[i],
Value = animCurve.Offset + (animCurve.Keys[i, 0] * animCurve.Scale),
Slope1 = animCurve.Offset + (animCurve.Keys[i, 1] * animCurve.Scale),
Slope2 = animCurve.Offset + (animCurve.Keys[i, 2] * animCurve.Scale),
Delta = animCurve.Offset + (animCurve.Keys[i, 3] * animCurve.Scale),
});
break;
case ResU.AnimCurveType.Linear: //2 elements are stored for linear
track.InterpolationType = InterpolationType.LINEAR;
track.Keys.Add(new Animation.KeyFrame()
{
IsKeyed = true,
InterType = InterpolationType.LINEAR,
Frame = (int)animCurve.Frames[i],
Value = animCurve.Offset + (animCurve.Keys[i, 0] * animCurve.Scale),
Delta = animCurve.Offset + (animCurve.Keys[i, 1] * animCurve.Scale),
});
break;
case ResU.AnimCurveType.StepInt: //1 element are stored for step
track.InterpolationType = InterpolationType.STEP;
track.Keys.Add(new Animation.KeyFrame()
{
IsKeyed = true,
InterType = InterpolationType.STEP,
Frame = (int)animCurve.Frames[i],
Value = (int)animCurve.Offset + (int)animCurve.Keys[i, 0] * animCurve.Scale,
Value1 = (int)animCurve.Offset + (int)animCurve.Keys[i, 0] * animCurve.Scale,
});
Console.WriteLine($"Frame {animCurve.Frames[i]} Offset " + (int)animCurve.Offset + " " + ((int)animCurve.Offset + (int)animCurve.Keys[i, 0] * animCurve.Scale));
break;
default:
throw new Exception("Unsupported anim type!");
}
}
return track;
}
public static BooleanKeyGroup CreateBooleanTrackWiiU(ResU.AnimCurve animCurve)
{
BooleanKeyGroup track = new BooleanKeyGroup();
track.AnimDataOffset = animCurve.AnimDataOffset;
track.Scale = animCurve.Scale;
track.Offset = animCurve.Offset;
track.StartFrame = animCurve.StartFrame;
track.EndFrame = animCurve.EndFrame;
track.Delta = animCurve.Delta;
for (int i = 0; i < (ushort)animCurve.Frames.Length; i++)
{
switch (animCurve.CurveType)
{
case ResU.AnimCurveType.StepBool: //1 element are stored for step
track.Keys.Add(new BooleanKeyFrame()
{
IsKeyed = true,
InterType = InterpolationType.STEPBOOL,
Frame = (int)animCurve.Frames[i],
Visible = animCurve.KeyStepBoolData[i],
});
break;
default:
throw new Exception("Unsupported anim type!");
}
}
return track;
}
public static BooleanKeyGroup CreateBooleanTrack(AnimCurve animCurve)
{
BooleanKeyGroup track = new BooleanKeyGroup();
track.AnimDataOffset = animCurve.AnimDataOffset;
track.Scale = animCurve.Scale;
track.Offset = animCurve.Offset;
track.StartFrame = animCurve.StartFrame;
track.EndFrame = animCurve.EndFrame;
track.Delta = animCurve.Delta;
for (int i = 0; i < (ushort)animCurve.Frames.Length; i++)
{
switch (animCurve.CurveType)
{
case AnimCurveType.StepBool: //1 element are stored for step
track.Keys.Add(new BooleanKeyFrame()
{
IsKeyed = true,
InterType = InterpolationType.STEPBOOL,
Frame = (int)animCurve.Frames[i],
Visible = animCurve.KeyStepBoolData[i],
});
break;
default:
throw new Exception("Unsupported anim type!");
}
}
return track;
}
public static Animation.KeyGroup CreateTrack(AnimCurve animCurve)
{
Animation.KeyGroup track = new Animation.KeyGroup();
track.AnimDataOffset = animCurve.AnimDataOffset;
track.Scale = animCurve.Scale;
track.Offset = animCurve.Offset;
track.StartFrame = animCurve.StartFrame;
track.EndFrame = animCurve.EndFrame;
track.Delta = animCurve.Delta;
float tanscale = animCurve.Delta;
if (tanscale == 0)
tanscale = 1;
if (animCurve.Scale == 0)
animCurve.Scale = 1;
for (int i = 0; i < (ushort)animCurve.Frames.Length; i++)
{
switch (animCurve.CurveType)
{
case AnimCurveType.Cubic: //4 elements are stored for cubic
track.InterpolationType = InterpolationType.HERMITE;
track.Keys.Add(new Animation.KeyFrame()
{
IsKeyed = true,
InterType = InterpolationType.HERMITE,
Frame = (int)animCurve.Frames[i],
Value = animCurve.Offset + (animCurve.Keys[i, 0] * animCurve.Scale),
Value1 = animCurve.Offset + (animCurve.Keys[i, 0] * animCurve.Scale),
Slope1 = animCurve.Offset + (animCurve.Keys[i, 1] * animCurve.Scale),
Slope2 = animCurve.Offset + (animCurve.Keys[i, 2] * animCurve.Scale),
Delta = animCurve.Offset + (animCurve.Keys[i, 3] * animCurve.Scale),
});
break;
case AnimCurveType.Linear: //2 elements are stored for linear
track.InterpolationType = InterpolationType.LINEAR;
track.Keys.Add(new Animation.KeyFrame()
{
IsKeyed = true,
InterType = InterpolationType.LINEAR,
Frame = (int)animCurve.Frames[i],
Value = animCurve.Offset + (animCurve.Keys[i, 0] * animCurve.Scale),
Value1 = animCurve.Offset + (animCurve.Keys[i, 0] * animCurve.Scale),
Delta = animCurve.Offset + (animCurve.Keys[i, 1] * animCurve.Scale),
});
break;
case AnimCurveType.StepInt: //1 element are stored for step
track.InterpolationType = InterpolationType.STEP;
track.Keys.Add(new Animation.KeyFrame()
{
IsKeyed = true,
InterType = InterpolationType.STEP,
Frame = (int)animCurve.Frames[i],
Value = (int)animCurve.Offset + (int)animCurve.Keys[i, 0] * animCurve.Scale,
Value1 = (int)animCurve.Offset + (int)animCurve.Keys[i, 0] * animCurve.Scale,
});
break;
default:
throw new Exception("Unsupported anim type!");
}
}
return track;
}
}
}