public static AlignmentGeometry lerp(AlignmentGeometry a, AlignmentGeometry b, float t) { D.assert(t != null); if (a == null && b == null) { return(null); } if (a == null) { return(b * t); } if (b == null) { return(a * (1.0f - t)); } if (a is Alignment && b is Alignment) { return(Alignment.lerp(a, b, t)); } if (a is AlignmentDirectional && b is AlignmentDirectional) { return(AlignmentDirectional.lerp(a, b, t)); } return(new _MixedAlignment( MathUtils.lerpNullableFloat(a._x, b._x, t), MathUtils.lerpNullableFloat(a._start, b._start, t), MathUtils.lerpNullableFloat(a._y, b._y, t) )); }
public static AlignmentGeometry lerp(AlignmentGeometry a, AlignmentGeometry b, float t) { if (a == null && b == null) { return(null); } if (a == null) { return(b * t); } if (b == null) { return(a * (1.0f - t)); } if (a is Alignment _a && b is Alignment _b) { return(Alignment.lerpAlignment(_a, _b, t)); } if (a is AlignmentDirectional _ad && b is AlignmentDirectional _bd) { return(AlignmentDirectional.lerpAlignmentDirectional(_ad, _bd, t)); } return(new _MixedAlignment( MathUtils.lerpNullableFloat(a._x, b._x, t), MathUtils.lerpNullableFloat(a._start, b._start, t), MathUtils.lerpNullableFloat(a._y, b._y, t) )); }
public override string ToString() { if (_start == 0.0) { return(Alignment._stringify(_x, _y)); } if (_x == 0.0) { return(AlignmentDirectional._stringify(_start, _y)); } return(Alignment._stringify(_x, _y) + " + " + AlignmentDirectional._stringify(_start, 0.0)); }