mirror of
https://github.com/Ryujinx/Opentk.git
synced 2024-12-26 06:05:37 +00:00
54f1e575d0
This commit fixes every current warning in the Example code bar two. Both due to the use of the OpenTK.GameWindow.Joysticks.
320 lines
10 KiB
C#
320 lines
10 KiB
C#
// This code was written for the OpenTK library and has been released
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// to the Public Domain.
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// It is provided "as is" without express or implied warranty of any kind.
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using System;
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using System.Collections.Generic;
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using System.Diagnostics;
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using System.Drawing;
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using System.Threading;
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using OpenTK;
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using OpenTK.Graphics;
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using OpenTK.Graphics.OpenGL;
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using OpenTK.Input;
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namespace Examples.Tutorial
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{
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/// <summary>
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/// Demonstrates how to decouple rendering from the main thread.
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/// Note that all OpenGL function calls should take place at the rendering thread -
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/// OpenGL will not be available on the main thread at all!
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/// </summary>
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[Example("GameWindow Threaded", ExampleCategory.OpenTK, "GameWindow", 3, Documentation = "GameWindowThreaded")]
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public class ThreadedRendering : GameWindow
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{
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bool viewport_changed = true;
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int viewport_width, viewport_height;
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bool position_changed = true;
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int position_x, position_y;
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float position_dx, position_dy;
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bool exit = false;
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Thread rendering_thread;
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object update_lock = new object();
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const float GravityAccel = -9.81f;
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struct Particle
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{
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public Vector2 Position;
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public Vector2 Velocity;
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public Color4 Color;
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}
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List<Particle> Particles = new List<Particle>();
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Random rand = new Random();
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public ThreadedRendering()
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: base(800, 600)
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{
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Keyboard.KeyDown += delegate(object sender, KeyboardKeyEventArgs e)
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{
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if (e.Key == Key.Escape)
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this.Exit();
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};
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Keyboard.KeyUp += delegate(object sender, KeyboardKeyEventArgs e)
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{
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if (e.Key == Key.F11)
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if (this.WindowState == WindowState.Fullscreen)
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this.WindowState = WindowState.Normal;
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else
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this.WindowState = WindowState.Fullscreen;
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};
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Resize += delegate(object sender, EventArgs e)
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{
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// Note that we cannot call any OpenGL methods directly. What we can do is set
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// a flag and respond to it from the rendering thread.
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lock (update_lock)
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{
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viewport_changed = true;
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viewport_width = Width;
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viewport_height = Height;
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}
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};
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Move += delegate(object sender, EventArgs e)
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{
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// Note that we cannot call any OpenGL methods directly. What we can do is set
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// a flag and respond to it from the rendering thread.
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lock (update_lock)
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{
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position_changed = true;
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position_dx = (position_x - X) / (float)Width;
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position_dy = (position_y - Y) / (float)Height;
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position_x = X;
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position_y = Y;
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}
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};
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// Make sure initial position are correct, otherwise we'll give a huge
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// initial velocity to the balls.
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position_x = X;
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position_y = Y;
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}
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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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protected override void OnLoad(EventArgs e)
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{
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Context.MakeCurrent(null); // Release the OpenGL context so it can be used on the new thread.
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rendering_thread = new Thread(RenderLoop);
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rendering_thread.IsBackground = true;
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rendering_thread.Start();
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}
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#endregion
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#region OnUnload
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/// <summary>
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/// Release resources here.
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/// </summary>
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/// <param name="e">Not used.</param>
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protected override void OnUnload(EventArgs e)
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{
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exit = true; // Set a flag that the rendering thread should stop running.
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rendering_thread.Join();
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base.OnUnload(e);
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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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protected override void OnUpdateFrame(FrameEventArgs e)
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{
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// Nothing to do!
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}
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#endregion
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#region OnRenderFrame
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/// <summary>
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/// Ignored. All rendering is performed on our own rendering function.
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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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protected override void OnRenderFrame(FrameEventArgs e)
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{
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// Nothing to do. Release the CPU to other threads.
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Thread.Sleep(1);
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}
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#endregion
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#region RenderLoop
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void RenderLoop()
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{
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MakeCurrent(); // The context now belongs to this thread. No other thread may use it!
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VSync = VSyncMode.On;
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for (int i = 0; i < 64; i++)
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{
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Particle p = new Particle();
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p.Position = new Vector2((float)rand.NextDouble() * 2 - 1, (float)rand.NextDouble() * 2 - 1);
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p.Color.R = (float)rand.NextDouble();
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p.Color.G = (float)rand.NextDouble();
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p.Color.B = (float)rand.NextDouble();
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Particles.Add(p);
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}
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// Since we don't use OpenTK's timing mechanism, we need to keep time ourselves;
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Stopwatch render_watch = new Stopwatch();
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Stopwatch update_watch = new Stopwatch();
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update_watch.Start();
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render_watch.Start();
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GL.ClearColor(Color.MidnightBlue);
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GL.Enable(EnableCap.DepthTest);
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GL.Enable(EnableCap.PointSmooth);
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GL.PointSize(16);
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while (!exit)
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{
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Update(update_watch.Elapsed.TotalSeconds);
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update_watch.Reset();
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update_watch.Start();
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Render(render_watch.Elapsed.TotalSeconds);
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render_watch.Reset(); // Stopwatch may be inaccurate over larger intervals.
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render_watch.Start(); // Plus, timekeeping is easier if we always start counting from 0.
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SwapBuffers();
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}
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Context.MakeCurrent(null);
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}
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#endregion
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#region Update
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void Update(double time)
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{
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lock (update_lock)
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{
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// When the user moves the window we make the particles react to
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// this movement. The reaction is semi-random and not physically
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// correct. It looks quite good, however.
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if (position_changed)
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{
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for (int i = 0; i < Particles.Count; i++)
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{
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Particle p = Particles[i];
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p.Velocity += new Vector2(
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16 * (position_dx + 0.05f * (float)(rand.NextDouble() - 0.5)),
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32 * (position_dy + 0.05f * (float)(rand.NextDouble() - 0.5)));
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Particles[i] = p;
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}
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position_changed = false;
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}
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}
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// For simplicity, we use simple Euler integration to simulate particle movement.
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// This is not accurate, especially under varying timesteps (as is the case here).
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// A better solution would have been time-corrected Verlet integration, as
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// described here:
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// http://www.gamedev.net/reference/programming/features/verlet/
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for (int i = 0; i < Particles.Count; i++)
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{
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Particle p = Particles[i];
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p.Velocity.X = Math.Abs(p.Position.X) >= 1 ?-p.Velocity.X * 0.92f : p.Velocity.X * 0.97f;
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p.Velocity.Y = Math.Abs(p.Position.Y) >= 1 ? -p.Velocity.Y * 0.92f : p.Velocity.Y * 0.97f;
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if (p.Position.Y > -0.99)
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{
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p.Velocity.Y += (float)(GravityAccel * time);
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}
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else
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{
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if (Math.Abs(p.Velocity.Y) < 0.02)
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{
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p.Velocity.Y = 0;
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p.Position.Y = -1;
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}
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else
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{
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p.Velocity.Y *= 0.9f;
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}
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}
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p.Position += p.Velocity * (float)time;
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if (p.Position.Y <= -1)
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p.Position.Y = -1;
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Particles[i] = p;
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}
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}
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#endregion
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#region Render
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/// <summary>
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/// This is our main rendering function, which executes on the rendering thread.
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/// </summary>
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public void Render(double time)
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{
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lock (update_lock)
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{
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if (viewport_changed)
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{
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GL.Viewport(0, 0, viewport_width, viewport_height);
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viewport_changed = false;
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}
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}
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Matrix4 perspective =
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Matrix4.CreateOrthographic(2, 2, -1, 1);
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GL.MatrixMode(MatrixMode.Projection);
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GL.LoadMatrix(ref perspective);
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GL.MatrixMode(MatrixMode.Modelview);
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GL.LoadIdentity();
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GL.Clear(ClearBufferMask.ColorBufferBit | ClearBufferMask.DepthBufferBit);
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GL.Begin(PrimitiveType.Points);
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foreach (Particle p in Particles)
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{
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GL.Color4(p.Color);
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GL.Vertex2(p.Position);
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}
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GL.End();
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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 (GameWindow example = new ThreadedRendering())
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{
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// Get the title and category of this example using reflection.
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Utilities.SetWindowTitle(example);
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example.Run();
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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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