#region --- License --- /* Copyright (c) 2006, 2007 Stefanos Apostolopoulos * See license.txt for license info */ #endregion using System; using System.Collections.Generic; using System.Text; using System.IO; using System.Drawing; using OpenTK; using OpenTK.Fonts; using OpenTK.Graphics.OpenGL; using OpenTK.Input; using OpenTK.Graphics.OpenGL.Enums; using System.Diagnostics; namespace Examples.Tutorial { ///

/// Shows how to render and scroll large amounts of text. ///

[Example("Text", ExampleCategory.Tutorial, 4)] public class Text : GameWindow { TextureFont serif = new TextureFont(new Font(FontFamily.GenericSerif, 24.0f)); TextHandle poem_handle; ITextPrinter text = new TextPrinter(); public Text() : base(new DisplayMode(800, 600)) { } string poem = new StreamReader("Data/Poem.txt").ReadToEnd(); int lines; // How many lines the poem contains. float scroll_speed; float initial_position; float warparound_position; float current_position; #region OnLoad public override void OnLoad(EventArgs e) { GL.ClearColor(Color.SteelBlue); current_position = initial_position; scroll_speed = -1.0f; text.Prepare(poem, serif, out poem_handle); // Count the amount of lines in the text, to find out the correct // warparound position. We want the text to scroll until the last // line moves outside the screen, then warp it around from the // other side of the screen. foreach (char c in poem) if (c == '\n') lines++; warparound_position = -(lines + 1) * serif.Height; } #endregion #region OnUnload public override void OnUnload(EventArgs e) { poem_handle.Dispose(); serif.Dispose(); } #endregion #region OnResize protected override void OnResize(OpenTK.Platform.ResizeEventArgs e) { GL.Viewport(0, 0, Width, Height); initial_position = Height + serif.Height; // Start one line below the screen. warparound_position = -(lines + 1) * serif.Height; } #endregion #region OnUpdateFrame public override void OnUpdateFrame(UpdateFrameEventArgs e) { if (Keyboard[Key.Space]) scroll_speed = 0.0f; if (Keyboard[Key.Down]) scroll_speed += 1; if (Keyboard[Key.Up]) scroll_speed -= 1; if (Keyboard[Key.Escape]) this.Exit(); } #endregion #region OnRenderFrame public override void OnRenderFrame(RenderFrameEventArgs e) { GL.Clear(ClearBufferMask.ColorBufferBit); // We'll start printing from the lower left corner of the screen. The text // will slowly move updwards - the user can control the movement speed with // the keyboard arrows and the space bar. current_position += scroll_speed * (float)e.ScaleFactor; if (scroll_speed > 0.0f && current_position > initial_position) current_position = warparound_position; else if (scroll_speed < 0.0f && current_position < warparound_position) current_position = initial_position; TextHandle t = null; text.Prepare((1.0 / e.Time).ToString(), serif, out t); // TextPrinter.Begin() sets up a 2d orthographic projection, with the x axis // moving from 0 to viewport.Width (left to right) and the y axis from // 0 to viewport.Height (top to bottom). This is the typical coordinate system // used in 2d graphics, and is necessary for achieving pixel-perfect glyph rendering. // TextPrinter.End() restores your previous projection/modelview matrices. text.Begin(); using (t) { //text.Begin(); text.Draw(t); //text.End(); } GL.Translate(0.0f, current_position, 0.0f); text.Draw(poem_handle); text.End(); SwapBuffers(); } #endregion #region public static void Main() ///

/// Entry point of this example. ///

[STAThread] public static void Main() { using (Text example = new Text()) { // Get the title and category of this example using reflection. ExampleAttribute info = ((ExampleAttribute)example.GetType().GetCustomAttributes(false)[0]); example.Title = String.Format("OpenTK | {0} {1}: {2}", info.Category, info.Difficulty, info.Title); example.Run(30.0, 0.0); } } #endregion } }