private static void DrawPointLight(Quaternion _rotation, Vector3 _position, float _radius)
{
Vector3[] vector3Array = new Vector3[3]
{
Quaternion.op_Multiply(_rotation, Vector3.get_right()),
Quaternion.op_Multiply(_rotation, Vector3.get_up()),
Quaternion.op_Multiply(_rotation, Vector3.get_forward())
};
if (Camera.get_current().get_orthographic())
{
Vector3 forward = ((Component)Camera.get_current()).get_transform().get_forward();
LightLine.DrawWireDisc(_position, forward, _radius);
for (int index = 0; index < 3; ++index)
{
Vector3 vector3 = Vector3.Cross(vector3Array[index], forward);
Vector3 normalized = ((Vector3) ref vector3).get_normalized();
LightLine.DrawTwoShadedWireDisc(_position, vector3Array[index], normalized, 180f, _radius);
}
}
else
{
Vector3 _normal = Vector3.op_Subtraction(_position, ((Component)Camera.get_current()).get_transform().get_position());
float sqrMagnitude = ((Vector3) ref _normal).get_sqrMagnitude();
float num1 = _radius * _radius;
float num2 = num1 * num1 / sqrMagnitude;
float num3 = num2 / num1;
if ((double)num3 < 1.0)
{
LightLine.DrawWireDisc(Vector3.op_Subtraction(_position, Vector3.op_Division(Vector3.op_Multiply(num1, _normal), sqrMagnitude)), _normal, Mathf.Sqrt(num1 - num2));
}
for (int index = 0; index < 3; ++index)
{
if ((double)num3 < 1.0)
{
float num4 = Vector3.Angle(_normal, vector3Array[index]);
float num5 = Mathf.Tan((90f - Mathf.Min(num4, 180f - num4)) * ((float)Math.PI / 180f));
float num6 = Mathf.Sqrt(num2 + num5 * num5 * num2) / _radius;
if ((double)num6 < 1.0)
{
float num7 = Mathf.Asin(num6) * 57.29578f;
Vector3 vector3 = Vector3.Cross(vector3Array[index], _normal);
Vector3 normalized = ((Vector3) ref vector3).get_normalized();
Vector3 _from = Quaternion.op_Multiply(Quaternion.AngleAxis(num7, vector3Array[index]), normalized);
LightLine.DrawTwoShadedWireDisc(_position, vector3Array[index], _from, (float)((90.0 - (double)num7) * 2.0), _radius);
}
else
{
LightLine.DrawTwoShadedWireDisc(_position, vector3Array[index], _radius);
}
}
else
{
LightLine.DrawTwoShadedWireDisc(_position, vector3Array[index], _radius);
}
}
}
}
public static void DrawLine(Vector3 p1, Vector3 p2)
{
if (!LightLine.BeginLineDrawing(Matrix4x4.get_identity()))
{
return;
}
GL.Vertex(p1);
GL.Vertex(p2);
LightLine.EndLineDrawing();
}
public static void DrawWireDisc(Vector3 _center, Vector3 _normal, float _radius)
{
Vector3 _from = Vector3.Cross(_normal, Vector3.get_up());
if ((double)((Vector3) ref _from).get_sqrMagnitude() < 1.0 / 1000.0)
{
_from = Vector3.Cross(_normal, Vector3.get_right());
}
LightLine.DrawWireArc(_center, _normal, _from, 360f, _radius);
}
private static void DrawTwoShadedWireDisc(
Vector3 _position,
Vector3 _axis,
Vector3 _from,
float _degrees,
float _radius)
{
LightLine.DrawWireArc(_position, _axis, _from, _degrees, _radius);
Color color1 = LightLine.m_Color;
Color color2 = color1;
ref Color local = ref color1;
public static void DrawWireArc(
Vector3 _center,
Vector3 _normal,
Vector3 _from,
float _angle,
float _radius)
{
Vector3[] _dest = new Vector3[60];
LightLine.SetDiscSectionPoints(_dest, 60, _center, _normal, _from, _angle, _radius);
LightLine.DrawPolyLine(_dest);
}
public static void DrawPolyLine(params Vector3[] _points)
{
if (!LightLine.BeginLineDrawing(Matrix4x4.get_identity()))
{
return;
}
for (int index = 1; index < _points.Length; ++index)
{
GL.Vertex(_points[index]);
GL.Vertex(_points[index - 1]);
}
LightLine.EndLineDrawing();
}
public void OnPostRender()
{
if (this.dicLight.Count <= 0)
{
return;
}
using (Dictionary <Light, bool> .Enumerator enumerator = this.dicLight.GetEnumerator())
{
while (enumerator.MoveNext())
{
KeyValuePair <Light, bool> current = enumerator.Current;
if (current.Value)
{
LightLine.DrawLine(current.Key);
}
}
}
}
public static void DrawLine(Light _light)
{
LightType type = _light.get_type();
if (type != 2)
{
if (type != null)
{
return;
}
LightLine.m_Color = _light.get_color();
LightLine.DrawSpotLight(((Component)_light).get_transform().get_rotation(), ((Component)_light).get_transform().get_position(), _light.get_spotAngle(), _light.get_range(), 1f, 1f);
}
else
{
LightLine.m_Color = _light.get_color();
LightLine.DrawPointLight(Quaternion.get_identity(), ((Component)_light).get_transform().get_position(), _light.get_range());
}
}
private static void DrawSpotLight(
Quaternion _rotation,
Vector3 _position,
float _angle,
float _range,
float _angleScale,
float _rangeScale)
{
float num = _range * _rangeScale;
float _radius = num * Mathf.Tan((float)(Math.PI / 180.0 * (double)_angle / 2.0)) * _angleScale;
Vector3 _normal = Quaternion.op_Multiply(_rotation, Vector3.get_forward());
Vector3 vector3_1 = Quaternion.op_Multiply(_rotation, Vector3.get_up());
Vector3 vector3_2 = Quaternion.op_Multiply(_rotation, Vector3.get_right());
LightLine.DrawLine(_position, Vector3.op_Addition(Vector3.op_Addition(_position, Vector3.op_Multiply(_normal, num)), Vector3.op_Multiply(vector3_1, _radius)));
LightLine.DrawLine(_position, Vector3.op_Subtraction(Vector3.op_Addition(_position, Vector3.op_Multiply(_normal, num)), Vector3.op_Multiply(vector3_1, _radius)));
LightLine.DrawLine(_position, Vector3.op_Addition(Vector3.op_Addition(_position, Vector3.op_Multiply(_normal, num)), Vector3.op_Multiply(vector3_2, _radius)));
LightLine.DrawLine(_position, Vector3.op_Subtraction(Vector3.op_Addition(_position, Vector3.op_Multiply(_normal, num)), Vector3.op_Multiply(vector3_2, _radius)));
LightLine.DrawWireDisc(Vector3.op_Addition(_position, Vector3.op_Multiply(num, _normal)), _normal, _radius);
}
