mirror of
https://github.com/KillzXGaming/Switch-Toolbox
synced 2024-11-23 04:53:09 +00:00
319 lines
9.5 KiB
C#
319 lines
9.5 KiB
C#
using System;
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using System.Collections.Generic;
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using OpenTK;
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using OpenTK.Graphics.OpenGL;
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using System.Text;
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using System.Threading.Tasks;
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using GL_EditorFramework.GL_Core;
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using GL_EditorFramework.Interfaces;
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using GL_EditorFramework.EditorDrawables;
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using GL_EditorFramework;
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namespace Toolbox.Library.Rendering
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{
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public class ProbeLighting : AbstractGlDrawable
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{
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public List<Entry> Entries = new List<Entry>();
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public class Entry
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{
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public bool IsVisable = true;
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public string Name { get { return $"b_{Index}"; } }
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public uint Index = 0;
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public uint Type = 0;
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public Grid Grid = new Grid();
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//Index Buffer
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public uint IndexType = 1;
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public uint UsedIndexNum;
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public uint MaxIndexNum;
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public uint[] IndexBuffer = new uint[0];
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public ushort[] GetUint16BufferIndices()
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{
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if (!IsUint16Buffer())
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throw new Exception("Buffer not a ushort buffer!");
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List<ushort> Indices = new List<ushort>();
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//Read the buffer data back as ushort
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for (int i = 0; i < IndexBuffer.Length; i++)
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{
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byte[] bytes = BitConverter.GetBytes(IndexBuffer[i]);
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Indices.Add(BitConverter.ToUInt16(bytes, 0));
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Indices.Add(BitConverter.ToUInt16(bytes, 2));
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}
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return Indices.ToArray();
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}
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public bool IsUint16Buffer()
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{
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if (IndexBuffer.Length / 2 == UsedIndexNum)
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return true;
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else return false;
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}
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public bool IsUint32Buffer()
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{
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if (IndexBuffer.Length == UsedIndexNum)
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return true;
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else return false;
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}
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//Data Buffer
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public uint DataType = 0;
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public uint UsedShDataNum;
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public uint MaxShDataNum;
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public uint PerProbeNum = 27;
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public float[] DataBuffer = new float[0];
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public bool IsHalfFloatBuffer()
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{
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if ((DataBuffer.Length * PerProbeNum) / 2 == UsedShDataNum)
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return true;
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else return false;
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}
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public bool IsFloatBuffer()
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{
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if ((DataBuffer.Length * PerProbeNum) == UsedShDataNum)
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return true;
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else return false;
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}
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//Color data in the data buffer
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public class ShereHermonic
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{
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//Usually 27
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public Vector3[] Coefficents;
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public ShereHermonic(int PerProbeNum) {
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Coefficents = new Vector3[PerProbeNum];
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}
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}
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}
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public class Grid
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{
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public Vector3 GridColor;
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public Vector3 AABB_Max_Position;
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public Vector3 AABB_Min_Position;
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public Vector3 Voxel_Step_Position;
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}
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protected static ShaderProgram ProbeSHShaderProgram;
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int vbo_position;
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public void Destroy()
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{
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bool buffersWereInitialized = vbo_position != 0;
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if (!buffersWereInitialized)
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return;
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GL.DeleteBuffer(vbo_position);
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}
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public List<Vector3> GetProbeVertices(int index)
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{
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var entry = Entries[index];
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var vertices = new List<Vector3>();
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Vector3 Max = entry.Grid.AABB_Max_Position;
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Vector3 Min = entry.Grid.AABB_Min_Position;
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Vector3 Step = entry.Grid.AABB_Min_Position;
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float GridWidth = Min.X + Max.X;
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float GirdHeight = Min.Y + Max.Y;
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/* //Draw Z plane
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for (int x = 0; x < GridWidth; x++)
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{
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for (int y = 0; y < GirdHeight; y++)
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{
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Vector3 position = new Vector3(Min.X + (x / Step.X) * (Max.X - Min.X),
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Min.Y + (y / Step.Y) * (Max.Y - Min.Y),
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Max.Z);
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vertices.Add(position);
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}
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}*/
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return vertices;
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}
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public List<Vector3> GetBoundingVertices(int index)
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{
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var entry = Entries[index];
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var vertices = new List<Vector3>();
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Vector3 Max = entry.Grid.AABB_Max_Position;
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Vector3 Min = entry.Grid.AABB_Min_Position;
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vertices.Add(new Vector3(Min.X, Min.Y, Min.Z));
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vertices.Add(new Vector3(Min.X, Min.Y, Max.Z));
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vertices.Add(new Vector3(Min.X, Max.Y, Min.Z));
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vertices.Add(new Vector3(Min.X, Max.Y, Max.Z));
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vertices.Add(new Vector3(Max.X, Min.Y, Min.Z));
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vertices.Add(new Vector3(Max.X, Min.Y, Max.Z));
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vertices.Add(new Vector3(Max.X, Max.Y, Min.Z));
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vertices.Add(new Vector3(Max.X, Max.Y, Max.Z));
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return vertices;
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}
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public static int CellAmount;
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public static int CellSize;
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int CurrentIndex = 0;
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Vector3[] Vertices
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{
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get
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{
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return GetProbeVertices(CurrentIndex).ToArray();
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}
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}
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public void UpdateVertexData()
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{
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Vector3[] vertices = Vertices;
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GL.GenBuffers(1, out vbo_position);
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GL.BindBuffer(BufferTarget.ArrayBuffer, vbo_position);
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GL.BufferData<Vector3>(BufferTarget.ArrayBuffer,
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new IntPtr(vertices.Length * Vector3.SizeInBytes),
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vertices, BufferUsageHint.StaticDraw);
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}
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public override void Draw(GL_ControlModern control, Pass pass)
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{
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if (pass == Pass.TRANSPARENT)
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return;
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bool buffersWereInitialized = vbo_position != 0;
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if (!buffersWereInitialized)
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UpdateVertexData();
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if (!Runtime.OpenTKInitialized)
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return;
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control.CurrentShader = ProbeSHShaderProgram;
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control.UpdateModelMatrix(Matrix4.Identity);
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Matrix4 previewScale = Utils.TransformValues(Vector3.Zero, Vector3.Zero, Runtime.previewScale);
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ProbeSHShaderProgram.SetMatrix4x4("previewScale", ref previewScale);
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foreach (var entry in Entries)
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{
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if (!entry.IsVisable)
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continue;
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Vector3[] vertices = GetBoundingVertices((int)entry.Index).ToArray();
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Vector3 Max = entry.Grid.AABB_Max_Position;
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Vector3 Min = entry.Grid.AABB_Min_Position;
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Vector3 Step = entry.Grid.Voxel_Step_Position;
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float gridHeight = Min.Y + Max.Y;
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float gridWidth = Min.X + Max.X;
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float gridDepth = Min.Z + Max.Z;
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//Draw bounding box
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GL.Color3(entry.Grid.GridColor);
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GL.Begin(PrimitiveType.LineLoop);
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GL.Vertex3(vertices[0]);
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GL.Vertex3(vertices[1]);
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GL.Vertex3(vertices[3]);
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GL.Vertex3(vertices[2]);
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GL.End();
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GL.Begin(PrimitiveType.LineLoop);
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GL.Vertex3(vertices[4]);
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GL.Vertex3(vertices[5]);
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GL.Vertex3(vertices[7]);
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GL.Vertex3(vertices[6]);
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GL.End();
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GL.Begin(PrimitiveType.Lines);
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GL.Vertex3(vertices[0]);
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GL.Vertex3(vertices[4]);
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GL.Vertex3(vertices[1]);
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GL.Vertex3(vertices[5]);
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GL.Vertex3(vertices[3]);
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GL.Vertex3(vertices[7]);
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GL.Vertex3(vertices[2]);
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GL.Vertex3(vertices[6]);
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GL.End();
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ProbeSHShaderProgram.EnableVertexAttributes();
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Draw(ProbeSHShaderProgram);
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ProbeSHShaderProgram.DisableVertexAttributes();
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}
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GL.UseProgram(0);
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}
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private void Attributes(ShaderProgram shader)
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{
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GL.BindBuffer(BufferTarget.ArrayBuffer, vbo_position);
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GL.VertexAttribPointer(shader.GetAttribute("vPosition"), 3, VertexAttribPointerType.Float, false, 12, 0);
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}
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private void Uniforms(ShaderProgram shader)
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{
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shader.SetVector3("gridColor", ColorUtility.ToVector3(System.Drawing.Color.Black));
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}
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private void Draw(ShaderProgram shader)
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{
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Uniforms(shader);
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Attributes(shader);
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GL.DrawArrays(PrimitiveType.Points, 0, Vertices.Length);
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}
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public override void Draw(GL_ControlLegacy control, Pass pass)
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{
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}
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public override void Prepare(GL_ControlModern control)
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{
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var Frag = new FragmentShader(
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@"#version 330
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uniform vec3 gridColor;
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out vec4 FragColor;
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void main(){
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FragColor = vec4(gridColor, 1);
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}");
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var Vert = new VertexShader(
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@"#version 330
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in vec3 vPosition;
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uniform mat4 mtxMdl;
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uniform mat4 mtxCam;
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void main(){
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gl_Position = mtxMdl * mtxCam * vec4(vPosition.xyz, 1);
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}");
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ProbeSHShaderProgram = new ShaderProgram(Frag, Vert, control);
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}
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public override void Prepare(GL_ControlLegacy control)
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{
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}
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}
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}
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