How to draw circle in Unity 3d? I want to draw a circle around different objects. The radiuses of the circles are different and the circles have textures - squares.


I found a big error with this code. The number of points (Size) shouldn't be "(2 * pi / theta_scale) + 1" because this causes the circle to draw 6.28 times. The size should be "1 / theta_scale + 1". So for a theta_scale of 0.01 it needs to draw 100 points, and for a theta_scale of 0.1 it needs to draw 10 points. Otherwise it would draw 62 times and 628 times respectively. Here is the code I used.

using UnityEngine;
using System.Collections;

public class DrawRadar : MonoBehaviour
    public float ThetaScale = 0.01f;
    public float radius = 3f;
    private int Size;
    private LineRenderer LineDrawer;
    private float Theta = 0f;

    void Start ()
        LineDrawer = GetComponent<LineRenderer>();

    void Update ()
        Theta = 0f;
        Size = (int)((1f / ThetaScale) + 1f);
        for(int i = 0; i < Size; i++){          
            Theta += (2.0f * Mathf.PI * ThetaScale);         
            float x = radius * Mathf.Cos(Theta);
            float y = radius * Mathf.Sin(Theta);          
            LineDrawer.SetPosition(i, new Vector3(x, y, 0));

If you modify the number in "Size" that is divided by ThetaScale, you can make a sweeping gauge/pie chart type graphic.

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  • 2
    This should be the correct answer, because @Jerdak's code draws so many unnecessary lines, but this code just passes through once and draws each corner in a single pass. Though, please note that for an imperforate line, you should do this instead: Size = (int)((1f / ThetaScale) + 2f) – user5504706 Dec 30 '15 at 17:11

See Unity Answers for a similar question.


float theta_scale = 0.1;  // Circle resolution

LineRenderer lineRenderer = gameObject.AddComponent<LineRenderer>();
lineRenderer.material = new Material(Shader.Find("Particles/Additive"));
lineRenderer.SetColors(c1, c2);
lineRenderer.SetWidth(0.2F, 0.2F);

int i = 0;
for(float theta = 0; theta < 2 * PI; theta += theta_scale) {
    x = r*cos(theta);
    y = r*sin(theta);

    Vector3 pos = new Vector3(x, y, 0);
    lineRenderer.SetPosition(i, pos);

The LineRenderer requires continuous points. You can modify this code slightly to use cylinder game objects instead of a line renderer. I find the LineRenderer to be a bit hideous.

Lastly, similar to the first link, you could attach a circle texture to a unit plane. Make any part of the texture that isn't part of the circle transparent. Then just scale and align the plane to fit your object. Unfortunately this method isn't great if someone is looking almost parallel to the plane.

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Jerdak's solution is good, but the code is messy so I had to tweak a little. Here's the code for a class, where I use i in the loop to avoid a bug.

It also updates the circle's position with its gameObject position.

using UnityEngine;
using System.Collections;

public class CircleDraw : MonoBehaviour {   
  float theta_scale = 0.01f;        //Set lower to add more points
  int size; //Total number of points in circle
  float radius = 3f;
  LineRenderer lineRenderer;

  void Awake () {       
    float sizeValue = (2.0f * Mathf.PI) / theta_scale; 
    size = (int)sizeValue;
    lineRenderer = gameObject.AddComponent<LineRenderer>();
    lineRenderer.material = new Material(Shader.Find("Particles/Additive"));
    lineRenderer.SetWidth(0.02f, 0.02f); //thickness of line

  void Update () {      
    Vector3 pos;
    float theta = 0f;
    for(int i = 0; i < size; i++){          
      theta += (2.0f * Mathf.PI * theta_scale);         
      float x = radius * Mathf.Cos(theta);
      float y = radius * Mathf.Sin(theta);          
      x += gameObject.transform.position.x;
      y += gameObject.transform.position.y;
      pos = new Vector3(x, y, 0);
      lineRenderer.SetPosition(i, pos);
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Using Shader Graph we can now draw pixel perfect circle.

Unlit Shader Graph

Once you created this graph, create a new material based on this shader.


Then create a new gameobject with a sprite renderer and set the material you just created.

You can scale the circle using the "scale" parameter of the material.

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  • Thanks for an alternative solution. As a coder I found this the most helpful. – nVentimiglia May 11 at 13:00

Circle can draw using shader - draw pixel if it on radius from center.

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Did the following with a Sprite. Chan is flying in the scene, so she's slightly above the plane. I had her flying so I could get a good screenshot, not because it wouldn't play well with the plane.

I used a low-resolution circle sprite. X rotation 90 Scale X 15, Y 15, Z 1

Then I set the Sorting Layer, so it will render above the Default Layer. I was testing this out when I came across this post. It doesn't handle shadows well. I'd have to figure out what layer shadows are drawn on to make sure they get rendered onto the sprite.

enter image description here

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I have a shader from which I usually start making effects like lens flares, and it makes a circle. Using shader is the best choice because you will get perfectly smooth and round circle.

Also it's easy to experiment with and tune the shader since shader changes don't require recompile and re-entering of play mode.

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I recommend ti create extension method to GameObject. Worked good to me.

public static class GameObjectExtension
    const int numberOfSegments = 360;
    public static void DrawCircle(this GameObject go, float radius, 
float lineWidth, Color startColor, Color endColor, bool lineRendererExists=true)
        LineRenderer circle = lineRendererExists ? go.GetComponent<LineRenderer>() : go.AddComponent<LineRenderer>();
        circle.useWorldSpace = false;
        circle.startWidth = lineWidth;
        circle.endWidth = lineWidth;
        circle.endColor = endColor;
        circle.startColor = startColor;
        circle.positionCount = numberOfSegments + 1;
        Vector3 [] points = new Vector3[numberOfSegments + 1];

        for (int i = 0; i < numberOfSegments + 1; i++)
            float rad = Mathf.Deg2Rad * i;
            points[i] = new Vector3(Mathf.Sin(rad) * radius, 0, Mathf.Cos(rad) * radius);

One More thing to note: If LineRenderer component is not applied last parameter has to be false

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