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https://github.com/Ryujinx/Opentk.git
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319 lines
12 KiB
C#
319 lines
12 KiB
C#
#region --- License ---
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/* Licensed under the MIT/X11 license.
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* Copyright (c) 2006-2008 the OpenTK Team.
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* This notice may not be removed from any source distribution.
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* See license.txt for licensing detailed licensing details.
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*
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* Written by Christoph Brandtner
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*/
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#endregion
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using System;
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using System.Windows.Forms;
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using System.Diagnostics;
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using System.Drawing;
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using System.Drawing.Imaging;
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using System.IO;
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using OpenTK;
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using OpenTK.Graphics;
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namespace Examples.Tutorial
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{
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/// <summary>
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/// Demonstrates how to render an animated Julia Set in real-time. Quality is sacrificed for speed.
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/// Info about the fractal: http://en.wikipedia.org/wiki/Julia_set
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/// One more major optimization could be applied (exploit the symmetry of the image with RTT), but
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/// that would make the program alot more complicated to follow. You can do this as an exercise.
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/// </summary>
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[Example("GLSL Animated Julia Set", ExampleCategory.GLSL)]
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public class JuliaSetFractal : GameWindow
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{
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public JuliaSetFractal()
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: base(512, 512)
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{
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}
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#region Private Fields
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// GLSL Objects
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int VertexShaderObject, FragmentShaderObject, ProgramObject;
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int TextureObject;
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// Julia Variables for animation
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float AnimOffsetX = 0.213f; // using non-zero as starting point to make it more interesting
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float AnimOffsetY = 0.63f;
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const double AnimSpeedX = 0.65; // anim speed scaling is solely used to make the anim more interesting
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const double AnimSpeedY = 1.05;
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const double AnimCosinusPercent = 0.85f; // scales the cosinus down to 85% to avoid the (boring) borders
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float UniformScaleFactorX; // fractal horizontal scaling is only affected by window resize
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float UniformScaleFactorY; // fractal vertical scaling is only affected by window resize
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float UniformOffsetX = 1.8f; // fractal horizontal offset
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float UniformOffsetY = 1.8f; // fractal vertical offset
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// Text drawing (for fps)
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TextPrinter printer = new TextPrinter();
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TextureFont font = new TextureFont(new Font(FontFamily.GenericSansSerif, 14.0f));
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#endregion private Fields
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#region OnLoad
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/// <summary>
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/// Setup OpenGL and load resources here.
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/// </summary>
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/// <param name="e">Not used.</param>
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public override void OnLoad(EventArgs e)
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{
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// Check for necessary capabilities:
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if (!GL.SupportsExtension("VERSION_2_0"))
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{
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MessageBox.Show("You need at least OpenGL 2.0 to run this example. Aborting.",
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"GLSL not supported", MessageBoxButtons.OK, MessageBoxIcon.Exclamation);
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this.Exit();
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}
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this.VSync = VSyncMode.On;
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GL.Disable(EnableCap.Dither);
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GL.ClearColor(0.2f, 0f, 0.4f, 0f);
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// declare some variables for tracking which shader did compile, and which texture to use
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string[] ShaderFilenames = new string[2];
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ShaderFilenames[0] = "Data/Shaders/JuliaSet_SM3_FS.glsl";
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ShaderFilenames[1] = "Data/Shaders/JuliaSet_SM2_FS.glsl";
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byte CurrentOption = 0;
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string LogInfo;
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#region Shaders
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// Load&Compile Vertex Shader
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using (StreamReader sr = new StreamReader("Data/Shaders/JuliaSet_VS.glsl"))
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{
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VertexShaderObject = GL.CreateShader(ShaderType.VertexShader);
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GL.ShaderSource(VertexShaderObject, sr.ReadToEnd());
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GL.CompileShader(VertexShaderObject);
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}
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GL.GetShaderInfoLog(VertexShaderObject, out LogInfo);
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if (LogInfo.Length > 0 && !LogInfo.Contains("hardware"))
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Trace.WriteLine("Vertex Shader Log:\n" + LogInfo);
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else
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Trace.WriteLine("Vertex Shader compiled without complaint.");
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// Load&Compile Fragment Shader
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FragmentShaderObject = GL.CreateShader(ShaderType.FragmentShader);
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do
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{
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using (StreamReader sr = new StreamReader(ShaderFilenames[CurrentOption]))
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{
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GL.ShaderSource(FragmentShaderObject, sr.ReadToEnd());
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GL.CompileShader(FragmentShaderObject);
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}
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GL.GetShaderInfoLog(FragmentShaderObject, out LogInfo);
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if (LogInfo.Length > 0 && !LogInfo.Contains("hardware"))
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Trace.WriteLine("Compiling " + ShaderFilenames[CurrentOption] + " failed!\nLog:\n" + LogInfo);
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else
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{
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Trace.WriteLine("Fragment Shader compiled without complaint.");
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break;
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}
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if (++CurrentOption > 1)
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{
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MessageBox.Show("Neither SM2 nor SM3 Fragment Shader compiled successfully. Aborting.",
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"Fatal Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
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this.Exit();
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}
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} while (true);
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// Link the Shaders to a usable Program
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ProgramObject = GL.CreateProgram();
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GL.AttachShader(ProgramObject, VertexShaderObject);
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GL.AttachShader(ProgramObject, FragmentShaderObject);
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GL.LinkProgram(ProgramObject);
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// make current
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GL.UseProgram(ProgramObject);
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// Flag ShaderObjects for delete when app exits
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GL.DeleteShader(VertexShaderObject);
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GL.DeleteShader(FragmentShaderObject);
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#endregion Shaders
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#region Textures
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// Load&Bind the 1D texture for color lookups
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GL.ActiveTexture(TextureUnit.Texture0); // select TMU0
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GL.GenTextures(1, out TextureObject);
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GL.TexParameter(TextureTarget.Texture1D, TextureParameterName.TextureMagFilter, (int)TextureMagFilter.Linear);
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GL.TexParameter(TextureTarget.Texture1D, TextureParameterName.TextureMinFilter, (int)TextureMinFilter.Linear);
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GL.TexParameter(TextureTarget.Texture1D, TextureParameterName.TextureWrapS, (int)(TextureWrapMode)All.ClampToEdge);
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using (Bitmap bitmap = new Bitmap("Data/JuliaColorTable.bmp"))
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{
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BitmapData data = bitmap.LockBits(new Rectangle(0, 0, bitmap.Width, bitmap.Height), ImageLockMode.ReadOnly,
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System.Drawing.Imaging.PixelFormat.Format24bppRgb);
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GL.TexImage1D(TextureTarget.Texture1D, 0, PixelInternalFormat.Rgb8, data.Width, 0, OpenTK.Graphics.PixelFormat.Bgr,
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PixelType.UnsignedByte, data.Scan0);
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bitmap.UnlockBits(data);
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}
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#endregion Textures
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Keyboard.KeyUp += KeyUp;
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}
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int i = 0;
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void KeyUp(OpenTK.Input.KeyboardDevice sender, OpenTK.Input.Key e)
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{
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if (e == OpenTK.Input.Key.F12)
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{
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Bitmap bmp = new Bitmap(this.Width, this.Height);
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System.Drawing.Imaging.BitmapData data =
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bmp.LockBits(new Rectangle(0, 0, this.Width, this.Height),
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System.Drawing.Imaging.ImageLockMode.WriteOnly,
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System.Drawing.Imaging.PixelFormat.Format24bppRgb);
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GL.ReadPixels(0, 0, this.Width, this.Height,
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OpenTK.Graphics.PixelFormat.Bgr,
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OpenTK.Graphics.PixelType.UnsignedByte,
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data.Scan0);
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bmp.UnlockBits(data);
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bmp.RotateFlip(RotateFlipType.RotateNoneFlipY);
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bmp.Save("Screenshot" + (i++).ToString() + ".png", ImageFormat.Png);
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}
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}
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#endregion
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#region OnUnLoad
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public override void OnUnload(EventArgs e)
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{
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GL.DeleteTextures(1, ref TextureObject);
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GL.DeleteProgram(ProgramObject); // implies deleting the previously flagged ShaderObjects
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}
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#endregion
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#region OnResize
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/// <summary>
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/// Respond to resize events here.
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/// </summary>
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/// <param name="e">Contains information on the new GameWindow size.</param>
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/// <remarks>There is no need to call the base implementation.</remarks>
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protected override void OnResize(OpenTK.Platform.ResizeEventArgs e)
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{
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// Magic numbers so the fractal almost fits inside the window.
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// If changing this, also change the -1.6f offset in the fragment shader accordingly.
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UniformScaleFactorX = Width / (UniformOffsetX * 2f);
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UniformScaleFactorY = Height / (UniformOffsetY * 2f);
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GL.Viewport(0, 0, Width, Height);
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GL.MatrixMode(MatrixMode.Projection);
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GL.LoadIdentity();
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GL.Ortho(-1.0, 1.0, -1.0, 1.0, 0.0, 1.0); // 2D setup
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GL.MatrixMode(MatrixMode.Modelview);
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GL.LoadIdentity();
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}
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#endregion
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#region OnUpdateFrame
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/// <summary>
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/// Add your game logic here.
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/// </summary>
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/// <param name="e">Contains timing information.</param>
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/// <remarks>There is no need to call the base implementation.</remarks>
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public override void OnUpdateFrame(UpdateFrameEventArgs e)
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{
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base.OnUpdateFrame(e);
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if (Keyboard[OpenTK.Input.Key.Escape])
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{
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this.Exit();
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}
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}
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#endregion
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#region OnRenderFrame
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/// <summary>
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/// Add your game rendering code here.
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/// </summary>
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/// <param name="e">Contains timing information.</param>
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/// <remarks>There is no need to call the base implementation.</remarks>
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public override void OnRenderFrame(RenderFrameEventArgs e)
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{
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//this.Title = "FPS: " + 1 / e.Time;
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GL.Clear(ClearBufferMask.ColorBufferBit);
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// First, render the next frame of the Julia fractal.
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GL.UseProgram(ProgramObject);
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// advance the animation by elapsed time, scaling is solely used to make the anim more interesting
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AnimOffsetX += (float)(e.Time * AnimSpeedX);
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AnimOffsetY += (float)(e.Time * AnimSpeedY);
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// pass uniforms into the fragment shader
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// first the texture
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GL.Uniform1(GL.GetUniformLocation(ProgramObject, "COLORTABLE"), TextureObject);
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// the rest are floats
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GL.Uniform1(GL.GetUniformLocation(ProgramObject, "CETX"), (float)(Math.Cos(AnimOffsetX) * AnimCosinusPercent));
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GL.Uniform1(GL.GetUniformLocation(ProgramObject, "CETY"), (float)(Math.Cos(AnimOffsetY) * AnimCosinusPercent));
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GL.Uniform1(GL.GetUniformLocation(ProgramObject, "SCALINGX"), UniformScaleFactorX);
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GL.Uniform1(GL.GetUniformLocation(ProgramObject, "SCALINGY"), UniformScaleFactorY);
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GL.Uniform1(GL.GetUniformLocation(ProgramObject, "OFFSETX"), UniformOffsetX);
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GL.Uniform1(GL.GetUniformLocation(ProgramObject, "OFFSETY"), UniformOffsetY);
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// Fullscreen quad. Using immediate mode, since this app is fragment shader limited anyways.
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GL.Begin(BeginMode.Quads);
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{
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GL.Vertex2(-1.0f, -1.0f);
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GL.Vertex2(1.0f, -1.0f);
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GL.Vertex2(1.0f, 1.0f);
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GL.Vertex2(-1.0f, 1.0f);
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}
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GL.End();
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// Then, render the fps:
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GL.UseProgram(0);
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printer.Begin();
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GL.Color3(Color.PaleGoldenrod);
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printer.Draw((1 / e.Time).ToString("F2"), font);
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printer.End();
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SwapBuffers();
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}
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#endregion
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#region public static void Main()
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/// <summary>
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/// Entry point of this example.
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/// </summary>
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[STAThread]
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public static void Main()
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{
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using (JuliaSetFractal example = new JuliaSetFractal())
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{
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Utilities.SetWindowTitle(example);
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example.Run(30.0);
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}
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}
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#endregion
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}
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}
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