using System; using System.Collections.Generic; using System.Linq; using System.Text; using Microsoft.Xna.Framework; using Microsoft.Xna.Framework.Graphics; using FarseerPhysics.Dynamics; using FarseerPhysics.SamplesFramework; using Axios.Engine.Interfaces; namespace Axios.Engine { public class DrawableAxiosGameObject : AxiosGameObject, IDrawableAxiosGameObject { protected int _draworder; protected Texture2D Texture; //protected float _scale = 1f; public Vector2 Position = new Vector2(); public Vector2 Origin = new Vector2(); protected Boolean _adjustunits = true; protected Boolean _relativetocamera = true; public override void LoadContent(AxiosGameScreen gameScreen) { base.LoadContent(gameScreen); } /*public float Scale { get { return _scale; } set { _scale = value; } }*/ public virtual void Draw(AxiosGameScreen gameScreen, GameTime gameTime) { /*#if DEBUG System.Diagnostics.Debugger.Break(); #endif*/ if (_relativetocamera) gameScreen.ScreenManager.SpriteBatch.Begin(0, null, null, null, null, null, gameScreen.Camera.View); else gameScreen.ScreenManager.SpriteBatch.Begin(); if (_adjustunits) gameScreen.ScreenManager.SpriteBatch.Draw(Texture, ConvertUnits.ToDisplayUnits(Position), null, Color.White, 0, Origin, _scale, SpriteEffects.None, 0); else gameScreen.ScreenManager.SpriteBatch.Draw(Texture, Position, null, Color.White, 0, Origin, _scale, SpriteEffects.None, 0); gameScreen.ScreenManager.SpriteBatch.End(); } public int DrawOrder { get { return this._draworder; } set { this._draworder = value; } } //Copied/adapted from http://create.msdn.com/en-US/education/catalog/tutorial/collision_2d_perpixel /// /// This method is a very simple collision detection based on textures. /// While Farseer (Box2D) is an excellent physics engine - it doesn't know, or care, about the textures. /// This method does a AABB test and if that is true - it tests the individual pixels in the textures. /// /// Object to test against /// true if the object is colliding, false if it isn't public bool CollidesWith(DrawableAxiosGameObject obj) { Rectangle thisobj = new Rectangle((int)this.Position.X, (int)this.Position.Y, this.Texture.Width, this.Texture.Height); Rectangle otherobj = new Rectangle((int)obj.Position.X, (int)obj.Position.Y, obj.Texture.Width, obj.Texture.Height); if (thisobj.Intersects(otherobj)) { int top = Math.Max(thisobj.Top, otherobj.Top); int bottom = Math.Min(thisobj.Bottom, otherobj.Bottom); int left = Math.Max(thisobj.Left, otherobj.Left); int right = Math.Min(thisobj.Right, otherobj.Right); Color[] thisobjcolor = new Color[this.Texture.Width * this.Texture.Height]; Color[] otherobjcolor = new Color[obj.Texture.Width * obj.Texture.Height]; Texture.GetData(thisobjcolor); obj.Texture.GetData(otherobjcolor); // Check every point within the intersection bounds for (int y = top; y < bottom; y++) { for (int x = left; x < right; x++) { // Get the color of both pixels at this point Color colorA = thisobjcolor[(x - thisobj.Left) + (y - thisobj.Top) * thisobj.Width]; Color colorB = otherobjcolor[(x - otherobj.Left) + (y - otherobj.Top) * otherobj.Width]; // If both pixels are not completely transparent, if (colorA.A != 0 && colorB.A != 0) { // then an intersection has been found return true; } } } } return false; } //Copied/adapted from http://create.msdn.com/en-US/education/catalog/tutorial/collision_2d_perpixel /// /// This method is a very simple collision detection based on textures. /// While Farseer (Box2D) is an excellent physics engine - it doesn't know, or care, about the textures. /// This method does a AABB test and if that is true - it tests the individual pixels in the textures. /// /// Object to test against /// true if the object is colliding, false if it isn't public bool CollidesWith(Vector2 pos, Rectangle rect) { Rectangle thisobj = new Rectangle((int)this.Position.X, (int)this.Position.Y, this.Texture.Width, this.Texture.Height); Rectangle otherobj = new Rectangle((int)pos.X, (int)pos.Y, rect.Width, rect.Height); Texture2D obj = new Texture2D(Texture.GraphicsDevice, rect.Width, rect.Height); Color[] arr = new Color[rect.Width * rect.Height]; for (int i = 0; i < rect.Width * rect.Height; ++i) arr[i] = Color.Black; obj.SetData(arr); if (thisobj.Intersects(otherobj)) { int top = Math.Max(thisobj.Top, otherobj.Top); int bottom = Math.Min(thisobj.Bottom, otherobj.Bottom); int left = Math.Max(thisobj.Left, otherobj.Left); int right = Math.Min(thisobj.Right, otherobj.Right); Color[] thisobjcolor = new Color[this.Texture.Width * this.Texture.Height]; Color[] otherobjcolor = new Color[obj.Width * obj.Height]; Texture.GetData(thisobjcolor); obj.GetData(otherobjcolor); // Check every point within the intersection bounds for (int y = top; y < bottom; y++) { for (int x = left; x < right; x++) { // Get the color of both pixels at this point Color colorA = thisobjcolor[(x - thisobj.Left) + (y - thisobj.Top) * thisobj.Width]; Color colorB = otherobjcolor[(x - otherobj.Left) + (y - otherobj.Top) * otherobj.Width]; // If both pixels are not completely transparent, if (colorA.A != 0 && colorB.A != 0) { // then an intersection has been found return true; } } } } return false; } } }