# How do I draw lines using XNA?

I've read a bunch of tutorials involving XNA (and it's various versions) and I still am a little confused on drawing primitives. Everything seems to be really convoluted.

Can someone show me, using code, the simplest XNA implementation of drawing one or two lines on to the screen? Perhaps with a brief explanation (including the boilerplate)?

I'm not a games programmer and I have little XNA experience. My ultimate goal is to draw some lines onto the screen which I will eventually transform with rotations, etc (by hand). However, for this first step.. I need to simply draw the lines! I remember back in my ancient OpenGL days it was fairly straightforward when drawing a line with a few method calls. Should I simply revert to using unmanaged directx calls?

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When working with XNA, everything (even 2d primitives) have to be expressed in a way that a 3d card can understand, which means that a line is just a set of vertices.

MSDN has a pretty good walkthrough here:

http://msdn.microsoft.com/en-us/library/bb196414.aspx#ID2EEF

You'll find that it takes more code to render a primitive line than it would take to just setup a textured quad and rotate that, since in essence, your doing the same thing when rendering a line.

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@Jonathan Holland, Thanks for the link and explanation. –  Simucal Nov 12 '08 at 1:23

Following NoHayProblema's answer (I cannot comment yet).

That answer, although the correct one for this old question, is incomplete. Texture2D constructor returns an uninitialized texture, which is never painted on screen. In order to use that approach, you need to set the texture's data like this:

``````Texture2D SimpleTexture = new Texture2D(GraphicsDevice, 1, 1, false,
SurfaceFormat.Color);

Int32[] pixel = {0xFFFFFF}; // White. 0xFF is Red, 0xFF0000 is Blue
SimpleTexture.SetData<Int32> (pixel, 0, SimpleTexture.Width * SimpleTexture.Height);

// Paint a 100x1 line starting at 20, 50
this.spriteBatch.Draw(SimpleTexture, new Rectangle(20, 50, 100, 1), Color.Blue);
``````

Take into account that the way you write the data into pixel must be consistent with the texture's SurfaceFormat. The example works because the texture is being formatted as RGB. Rotations can be applied in spriteBatch.Draw like this:

``````this.spriteBatch.Draw (SimpleTexture, new Rectangle(0, 0, 100, 1), null,
Color.Blue, -(float)Math.PI/4, new Vector2 (0f, 0f), SpriteEffects.None, 1f);
``````
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Simpler than editing the pixel data as a hex value is using Color as the texture data. Something like this: var txPixel = new Texture2D(GraphicsDevice, 1, 1); txPixel.SetData<Color>(new Color[1] { Color.White }); –  krolth Aug 8 '11 at 6:39
even better: `txPixel.SetData<Color>(new []{ Color.White });` –  Gustavo Maciel Nov 3 '12 at 14:43

Well, you can do it in a very simple way without getting into the 3D horrible vector stuff.

Just create a quick texture, for example:

`Texture2D SimpleTexture = new Texture2D(GraphicsDevice, 1, 1, false, SurfaceFormat.Color);`

And then just draw a line using that texture:

`this.spriteBatch.Draw(SimpleTexture, new Rectangle(100, 100, 100, 1), Color.Blue);`

I hope this helps

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Only works for horizontal and vertical lines, of course. OP wants to rotate them, and so this probably won't help him. –  Tor Haugen May 30 '13 at 22:54

found a tutorial for that http://www.bit-101.com/blog/?p=2832

its using a BasicEffect (shader) and the built in draw user primitive in XNA 4.0

some code samples i find helpful:

``````basicEffect = new BasicEffect(GraphicsDevice);
basicEffect.VertexColorEnabled = true;
basicEffect.Projection = Matrix.CreateOrthographicOffCenter
(0, GraphicsDevice.Viewport.Width,     // left, right
GraphicsDevice.Viewport.Height, 0,    // bottom, top
0, 1);
``````

draw method

``````basicEffect.CurrentTechnique.Passes[0].Apply();
var vertices = new VertexPositionColor[4];
vertices[0].Position = new Vector3(100, 100, 0);
vertices[0].Color = Color.Black;
vertices[1].Position = new Vector3(200, 100, 0);
vertices[1].Color = Color.Red;
vertices[2].Position = new Vector3(200, 200, 0);
vertices[2].Color = Color.Black;
vertices[3].Position = new Vector3(100, 200, 0);
vertices[3].Color = Color.Red;

GraphicsDevice.DrawUserPrimitives<VertexPositionColor>(PrimitiveType.LineList, vertices, 0, 2);
``````

have fun and vote up if this helped you. also pay a visit to the tutorial i got this from.

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The simplest best way, I think, is to get the image of just a white pixel then stretch that pixel in a rectangle to look like a line

I made a Line class,

``````class Line
{
Texture pixel = ((set this to a texture of a white pixel with no border));
Vector2 p1, p2; //this will be the position in the center of the line
int length, thickness; //length and thickness of the line, or width and height of rectangle
Rectangle rect; //where the line will be drawn
float rotation; // rotation of the line, with axis at the center of the line
Color color;

//p1 and p2 are the two end points of the line
public Line(Vector2 p1, Vector2 p2, int thickness, Color color)
{
this.p1 = p1;
this.p2 = p2;
this.thickness = thickness;
this.color = color;
}

public void Update(GameTime gameTime)
{
length = (int)Vector2.Distance(p1, p2); //gets distance between the points
rotation = getRotation(p1.X, p1.Y, p2.X, p2.Y); //gets angle between points(method on bottom)
rect = new Rectangle((int)p1.X, (int)p1.Y, length, thickness)

//To change the line just change the positions of p1 and p2
}

public void Draw(SpriteBatch spriteBatch, GameTime gameTime)
{
spriteBatch.Draw(pixel, rect, null, color, rotation, new Vector2.Zero, SpriteEffects.None, 0.0f);
}

//this returns the angle between two points in radians
private float getRotation(float x, float y, float x2, float y2)
{
float adj = x - x2;
float opp = y - y2;
float tan = opp / adj;
float res = MathHelper.ToDegrees((float)Math.Atan2(opp, adj));
res = (res - 180) % 360;
if (res < 0) { res += 360; }
return res;
}
``````

Hope this helps

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UpVote! This class is very helpful for my debugging. Thanks! –  Vlad Aug 5 at 1:40

There is also the "round line" code that "manders" has released on CodePlex:

Here is the blog post about it:

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Here is a simple way that I use to make lines by specifying a start coordinate, an end coordinate, width, and color of them:

NOTE: you must add a file named "dot" to the content directory (the line will be made out of these).

``````using System;
using System.Collections.Generic;
using System.Linq;
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Audio;
using Microsoft.Xna.Framework.Content;
using Microsoft.Xna.Framework.GamerServices;
using Microsoft.Xna.Framework.Graphics;
using Microsoft.Xna.Framework.Input;
using Microsoft.Xna.Framework.Media;

namespace Xna.LineHelper
{
public class LineManager
{
int loopCounter;
int lineLegnth;
Vector2 lineDirection;
Vector2 _position;
Color dotColor;
Rectangle _rectangle;
List<Texture2D> _dots = new List<Texture2D>();
FunctionsLibrary functions = new FunctionsLibrary();

public void CreateLineFiles(Vector2 startPosition, Vector2 endPosition, int width, Color color, ContentManager content)
{
dotColor = color;
_position.X = startPosition.X;
_position.Y = startPosition.Y;
lineLegnth = functions.Distance((int)startPosition.X, (int)endPosition.X, (int)startPosition.Y, (int)endPosition.Y);
lineDirection = new Vector2((endPosition.X - startPosition.X) / lineLegnth, (endPosition.Y - startPosition.Y) / lineLegnth);
_dots.Clear();
loopCounter = 0;
_rectangle = new Rectangle((int)startPosition.X, (int)startPosition.Y, width, width);
while (loopCounter < lineLegnth)
{
Texture2D dot = content.Load<Texture2D>("dot");

loopCounter += 1;
}

}

public void DrawLoadedLine(SpriteBatch sb)
{
foreach (Texture2D dot in _dots)
{
_position.X += lineDirection.X;
_position.Y += lineDirection.Y;
_rectangle.X = (int)_position.X;
_rectangle.Y = (int)_position.Y;
sb.Draw(dot, _rectangle, dotColor);
}
}
}

public class FunctionsLibrary
{
//Random for all methods
Random Rand = new Random();

#region math
public int TriangleArea1(int bottom, int height)
{
int answer = (bottom * height / 2);
}

public double TriangleArea2(int A, int B, int C)
{
int s = ((A + B + C) / 2);
double answer = (Math.Sqrt(s * (s - A) * (s - B) * (s - C)));
}
public int RectangleArea(int side1, int side2)
{
int answer = (side1 * side2);
}
public int SquareArea(int side)
{
int answer = (side * side);
}
public double CircleArea(int diameter)
{
double answer = (((diameter / 2) * (diameter / 2)) * Math.PI);
}
public int Diference(int A, int B)
{
int distance = Math.Abs(A - B);
return distance;
}
#endregion

#region standardFunctions

public int RollDice(int sides)
{

int result = (Rand.Next(1, sides + 1));
return result;
}
public void ConsoleWelcomeMessage(string gameName, string playerName = "\b")
{
Console.WriteLine("Welcome " + playerName + " to " + gameName + "!");

}
public string ConsoleGetName()
{
Console.WriteLine();
Console.Write("Type your name: ");
string name = Console.ReadLine();
Console.WriteLine("Your name will be: " + name);
return name;
}
public int ConsoleGetDifficulty(int min, int max)
{
bool done = false;
int difficulty = 1;

Console.WriteLine();
Console.Write("Choose your difficulty from " + min + " to " + max + ": ");
while (done == false)
{
try
{
string input = Console.ReadLine();
difficulty = int.Parse(input);
if (difficulty < max + 1 && difficulty > min - 1)
{
done = true;
}
else
{
//Ends the try block with an impossible action (bool.Parse)
bool tester = bool.Parse(input);

}
}
catch
{
Console.Write("Enter a valid number: ");
}
}
Console.WriteLine("Your difficulty will be: " + difficulty);
return difficulty;
}

public int Distance(int x1, int x2, int y1, int y2)
{
return (int)(Math.Sqrt((x1 - x2) * (x1 - x2) + (y1 - y2) * (y1 - y2)));
}

public void Test()
{

}
#endregion

}
}
``````
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I encountered this problem my self and decided to make a class called LineBatch. LineBatch will draw lines without needing a spriteBatch or dots. The class is below.

``````public class LineBatch
{
bool began;
GraphicsDevice GraphicsDevice;
List<VertexPositionColor> verticies = new List<VertexPositionColor>();
BasicEffect effect;
public LineBatch(GraphicsDevice graphics)
{
GraphicsDevice = graphics;
effect = new BasicEffect(GraphicsDevice);
Matrix world = Matrix.Identity;
Matrix view = Matrix.CreateTranslation(-GraphicsDevice.Viewport.Width / 2, -GraphicsDevice.Viewport.Height / 2, 0);
Matrix projection = Matrix.CreateOrthographic(GraphicsDevice.Viewport.Width, -GraphicsDevice.Viewport.Height, -10, 10);
effect.World = world;
effect.View = view;
effect.VertexColorEnabled = true;
effect.Projection = projection;
effect.DiffuseColor = Color.White.ToVector3();
}
public LineBatch(GraphicsDevice graphics, bool cares_about_begin_without_end)
{
GraphicsDevice = graphics;
effect = new BasicEffect(GraphicsDevice);
Matrix world = Matrix.Identity;
Matrix view = Matrix.CreateTranslation(-GraphicsDevice.Viewport.Width / 2, -GraphicsDevice.Viewport.Height / 2, 0);
Matrix projection = Matrix.CreateOrthographic(GraphicsDevice.Viewport.Width, -GraphicsDevice.Viewport.Height, -10, 10);
effect.World = world;
effect.View = view;
effect.VertexColorEnabled = true;
effect.Projection = projection;
effect.DiffuseColor = Color.White.ToVector3();
}
public void DrawAngledLineWithRadians(Vector2 start, float length, float radians, Color color)
{
Vector2 offset = new Vector2(
(float)Math.Sin(radians) * length, //x
-(float)Math.Cos(radians) * length //y
);
Draw(start, start + offset, color);
}
public void DrawOutLineOfRectangle(Rectangle rectangle, Color color)
{
Draw(new Vector2(rectangle.X, rectangle.Y), new Vector2(rectangle.X + rectangle.Width, rectangle.Y), color);
Draw(new Vector2(rectangle.X, rectangle.Y), new Vector2(rectangle.X, rectangle.Y + rectangle.Height), color);
Draw(new Vector2(rectangle.X + rectangle.Width, rectangle.Y), new Vector2(rectangle.X + rectangle.Width, rectangle.Y + rectangle.Height), color);
Draw(new Vector2(rectangle.X, rectangle.Y + rectangle.Height), new Vector2(rectangle.X + rectangle.Width, rectangle.Y + rectangle.Height), color);
}
public void DrawOutLineOfTriangle(Vector2 point_1, Vector2 point_2, Vector2 point_3, Color color)
{
Draw(point_1, point_2, color);
Draw(point_1, point_3, color);
Draw(point_2, point_3, color);
}
{
return angleDegrees * ((float)Math.PI) / 180.0f;
}
public void DrawAngledLine(Vector2 start, float length, float angleDegrees, Color color)
{
}
public void Draw(Vector2 start, Vector2 end, Color color)
{
verticies.Add(new VertexPositionColor(new Vector3(start, 0f), color));
verticies.Add(new VertexPositionColor(new Vector3(end, 0f), color));
}
public void Draw(Vector3 start, Vector3 end, Color color)
{
}
public void End()
{
if (!began)
throw new ArgumentException("Please add begin before end!");
else
Begin();
if (verticies.Count > 0)
{
VertexBuffer vb = new VertexBuffer(GraphicsDevice, typeof(VertexPositionColor), verticies.Count, BufferUsage.WriteOnly);
vb.SetData<VertexPositionColor>(verticies.ToArray());
GraphicsDevice.SetVertexBuffer(vb);

foreach (EffectPass pass in effect.CurrentTechnique.Passes)
{
pass.Apply();
GraphicsDevice.DrawPrimitives(PrimitiveType.LineList, 0, verticies.Count / 2);
}
}
began = false;
}
public void Begin()
{
if (began)