# How to draw a triangle, a star, a square or a heart on the canvas?

I am able to draw a circle and a rectangle on canvas by using
`path.addCircle()`

and

`path.addRect()`.

And now I am wondering how to draw a triangle or a star or a square or a heart?

For future direct answer seekers, I have drawn an almost symmetric star using canvas, as shown in the image:

The main tool is using Paths.

Assuming you have setup:

``````Paint paint = new Paint();
paint.setColor(Color.WHITE);
paint.setAntiAlias(true);
paint.setStyle(Paint.Style.STROKE);

Path path = new Path();
``````

Then in you onDraw you can use the path like I do below. It will scale properly to any sizes canvas

``````@Override
protected void onDraw(Canvas canvas) {

float mid = getWidth() / 2;
float min = Math.min(getWidth(), getHeight());
float fat = min / 17;
float half = min / 2;
float rad = half - fat;
mid = mid - half;

paint.setStrokeWidth(fat);
paint.setStyle(Paint.Style.STROKE);

canvas.drawCircle(mid + half, half, rad, paint);

path.reset();

paint.setStyle(Paint.Style.FILL);

// top left
path.moveTo(mid + half * 0.5f, half * 0.84f);
// top right
path.lineTo(mid + half * 1.5f, half * 0.84f);
// bottom left
path.lineTo(mid + half * 0.68f, half * 1.45f);
// top tip
path.lineTo(mid + half * 1.0f, half * 0.5f);
// bottom right
path.lineTo(mid + half * 1.32f, half * 1.45f);
// top left
path.lineTo(mid + half * 0.5f, half * 0.84f);

path.close();
canvas.drawPath(path, paint);

super.onDraw(canvas);

}
``````
• Good Answer! Thanks! I think `path.lineTo(mid + half * 0.5f, half * 0.84f);` in the end (before path close) not needed as `path.close()` will handle that automatically! Jul 13, 2022 at 13:04

For everybody that needs a heart shape:

``````    import android.content.Context;
import android.graphics.Canvas;
import android.graphics.Color;
import android.graphics.Paint;
import android.graphics.Paint.Style;
import android.graphics.Path;
import android.view.View;

public class Heart extends View {

private Path path;

private Paint paint;

public Heart(Context context) {
super(context);

path = new Path();
paint = new Paint(Paint.ANTI_ALIAS_FLAG);
}

@Override
protected void onDraw(Canvas canvas) {
super.onDraw(canvas);

// Fill the canvas with background color
canvas.drawColor(Color.WHITE);

float width = getContext().getResources().getDimension(R.dimen.heart_width);
float height = getContext().getResources().getDimension(R.dimen.heart_height);

// Starting point
path.moveTo(width / 2, height / 5);

// Upper left path
path.cubicTo(5 * width / 14, 0,
0, height / 15,
width / 28, 2 * height / 5);

// Lower left path
path.cubicTo(width / 14, 2 * height / 3,
3 * width / 7, 5 * height / 6,
width / 2, height);

// Lower right path
path.cubicTo(4 * width / 7, 5 * height / 6,
13 * width / 14, 2 * height / 3,
27 * width / 28, 2 * height / 5);

// Upper right path
path.cubicTo(width, height / 15,
9 * width / 14, 0,
width / 2, height / 5);

paint.setColor(Color.RED);
paint.setStyle(Style.FILL);
canvas.drawPath(path, paint);

}
}
``````

Sorry for all the numbers but these worked best for me :) The result looks like this:

You have to find out the math behind that figures. The triangle and the star are quite easy to draw. Here is how you can draw a heart: http://www.mathematische-basteleien.de/heart.htm

To draw special paths you should create them by adding points, ellipses etc. The canvas supports a clipping mask of a specified path, so you can set the clipping mask of a heart, push the paths to the matrix, draw the content of the heart, and then pop it again.

That's what I'm doing to achieve a simulated 2D page curl effect on andriod: http://code.google.com/p/android-page-curl/

Hope this helps!

this method will return a path with the number of corners given inside a square of the given width. Add more parameters to handle small radius and such things.

``````    private Path createStarBySize(float width, int steps) {
float halfWidth = width / 2.0F;
float radius = halfWidth / 2.0F;
float degreesPerStep = (float) Math.toRadians(360.0F / (float) steps);
float halfDegreesPerStep = degreesPerStep / 2.0F;
Path ret = new Path();
ret.setFillType(FillType.EVEN_ODD);
float max = (float) (2.0F* Math.PI);
ret.moveTo(width, halfWidth);
for (double step = 0; step < max; step += degreesPerStep) {
ret.lineTo((float)(halfWidth + radius * Math.cos(step + halfDegreesPerStep)), (float)(halfWidth + radius * Math.sin(step + halfDegreesPerStep)));
}
ret.close();
return ret;
}
``````
• Answered to my own question, to set the star pointing north: 1. Set FillType.WINDING. 2. Set max to (2 * PI - PI / 2). 3. Set ret.moveTo(halfWidth, 0). Sep 10, 2020 at 0:29

If you need to draw a star inside a square, you can use the code below.

`posX` and `posY` are the coordinates for the upper left corner of the square that encloses the tips of the star (the square is not actually drawn).

`size` is the width and height of the square.

`a` is the top tip of the star. The path is created clockwise.

This is by no means a perfect solution, but it gets the job done very quickly.

`````` public void drawStar(float posX, float posY, int size, Canvas canvas){

int hMargin = size/9;
int vMargin = size/4;

Point a = new Point((int) (posX + size/2), (int) posY);
Point b = new Point((int) (posX + size/2 + hMargin), (int) (posY + vMargin));
Point c = new Point((int) (posX + size), (int) (posY + vMargin));
Point d = new Point((int) (posX + size/2 + 2*hMargin), (int) (posY + size/2 + vMargin/2));
Point e = new Point((int) (posX + size/2 + 3*hMargin), (int) (posY + size));
Point f = new Point((int) (posX + size/2), (int) (posY + size - vMargin));
Point g = new Point((int) (posX + size/2 - 3*hMargin), (int) (posY + size));
Point h = new Point((int) (posX + size/2 - 2*hMargin), (int) (posY + size/2 + vMargin/2));
Point i = new Point((int) posX, (int) (posY + vMargin));
Point j = new Point((int) (posX + size/2 - hMargin), (int) (posY + vMargin));

Path path = new Path();
path.moveTo(a.x, a.y);
path.lineTo(b.x, b.y);
path.lineTo(c.x, c.y);
path.lineTo(d.x, d.y);
path.lineTo(e.x, e.y);
path.lineTo(f.x, f.y);
path.lineTo(f.x, f.y);
path.lineTo(g.x, g.y);
path.lineTo(h.x, h.y);
path.lineTo(i.x, i.y);
path.lineTo(j.x, j.y);
path.lineTo(a.x, a.y);

path.close();

canvas.drawPath(path, paint);
}
``````

In addition to ellipse and rectangular you will need those two (as minimum):

example: How to draw a line in android

Documentation on Canvas: http://developer.android.com/reference/android/graphics/Canvas.html

• You need to divide complex shapes to primitive ones. For example you can draw heart using two half circles and two lines. Triangle - select 3 points and connect them with drawLine() or even better pass array pf points to drawLines(); Aug 10, 2011 at 8:12

Its very good to use instance of Shape class ))

`````` @Override
public void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);

HeartShape shape = new HeartShape();
ShapeDrawable shapeDrawable = new ShapeDrawable(shape);
shapeDrawable.setColorFilter(new LightingColorFilter(0, Color.BLUE));

LinearLayout linearLayout = new LinearLayout(this);
linearLayout.setLayoutParams(new LinearLayout.LayoutParams(350 * 3, 350 * 3));
linearLayout.setBackground(shapeDrawable);

setContentView(linearLayout);
}
``````

Create a shape class which was render nice Heart

`````` public class HeartShape extends Shape {

private final int INVALID_SIZE = -1;

private Path mPath = new Path();
private RectF mRectF = new RectF();

private float mOldWidth = INVALID_SIZE;
private float mOldHeight = INVALID_SIZE;

private float mScaleX, mScaleY;

public HeartShape() {

}

@Override
public void draw(Canvas canvas, Paint paint) {
canvas.save();
canvas.scale(mScaleX, mScaleY);

float width = mRectF.width();
float height = mRectF.height();

float halfWidth = width/2;
float halfHeight = height/2;

float stdDestX = 5 * width / 14;
float stdDestY = 2 * height / 3;

PointF point1 = new PointF(stdDestX, 0);
PointF point2 = new PointF(0, height / 15);
PointF point3 = new PointF(stdDestX / 5, stdDestY);
PointF point4 = new PointF(stdDestX, stdDestY);

// Starting point
mPath.moveTo(halfWidth, height / 5);

mPath.cubicTo(point1.x, point1.y, point2.x, point2.y, width / 28, 2 * height / 5);
mPath.cubicTo(point3.x, point3.y, point4.x, point4.y, halfWidth, height);

canvas.drawPath(mPath, paint);

canvas.scale(-mScaleX, mScaleY, halfWidth, halfHeight);
canvas.drawPath(mPath, paint);

canvas.restore();
}

@Override
protected void onResize(float width, float height) {
mOldWidth = mOldWidth == INVALID_SIZE ? width : Math.max(1, mOldWidth);
mOldHeight = mOldHeight == INVALID_SIZE ? height : Math.max(1, mOldHeight);

width = Math.max(1, width);
height = Math.max(1, height);

mScaleX = width / mOldWidth;
mScaleY = height / mOldHeight;

mOldWidth = width;
mOldHeight = height;

mRectF.set(0, 0, width, height);
}

@Override
public void getOutline(@NonNull Outline outline) {
// HeartShape not supported outlines
}

@Override
public HeartShape clone() throws CloneNotSupportedException {
HeartShape shape = (HeartShape) super.clone();
shape.mPath = new Path(mPath);
return shape;
}

}
``````

Well if you want to draw only the shapes you specify I recommend first creat a class for each shape and make each shape implement draw() method where you can pass canvas and paint object.

For example to create multiple stars, first create a class "Star" and implement the logic there.

``````class Star(
var cx: Float = 0f,
var cy: Float = 0f,
var angle: Float = 0f,
var color: Int = Color.WHITE,
var numberOfSpikes: Int = 5,
var depth: Float = 0.4f
) {

val path: Path = Path()
val point: PointF = PointF()

fun init() {
path.rewind()

var totalAngle = 0f
for (i in 0 until numberOfSpikes * 2) {

val x = cx
var y = cy
y -= if (i % 2 != 0) (radius * depth)

StaticMethods.rotate(cx, cy, x, y, totalAngle, false, point)
totalAngle += 360f / (numberOfSpikes * 2)
if (i == 0) {
path.moveTo(point.x, point.y)
} else {
path.lineTo(point.x, point.y)
}
}
}

fun draw(canvas: Canvas, paint: Paint) {

paint.apply {
style = Paint.Style.FILL
color = this@Star.color
}
canvas.drawPath(path, paint)
}
}

object StaticMethods {

/**
* Rotate a point around a center with given angle
* @param cx rotary center point x coordinate
* @param cy rotary center point y coordinate
* @param x x coordinate of the point that will be rotated
* @param y y coordinate of the point that will be rotated
* @param angle angle of rotation in degrees
* @param anticlockWise rotate clockwise or anti-clockwise
* @param resultPoint object where the result rotational point will be stored
*/
fun rotate(cx: Float, cy: Float, x: Float, y: Float, angle: Float, anticlockWise: Boolean = false, resultPoint: PointF = PointF()): PointF {

if (angle == 0f) {
resultPoint.x = x
resultPoint.y = y
return resultPoint
}

val radians = if (anticlockWise) {
(Math.PI / 180) * angle
} else {
(Math.PI / -180) * angle
}

val nx = (cos * (x - cx)) + (sin * (y - cy)) + cx
val ny = (cos * (y - cy)) - (sin * (x - cx)) + cy

resultPoint.x = nx.toFloat()
resultPoint.y = ny.toFloat()
return resultPoint
}
/**
* Inline function that is called, when the final measurement is made and
* the view is about to be draw.
*/
inline fun View.afterMeasured(crossinline function: View.() -> Unit) {
ViewTreeObserver.OnGlobalLayoutListener {
override fun onGlobalLayout() {
if (measuredWidth > 0 && measuredHeight > 0) {
viewTreeObserver.removeOnGlobalLayoutListener(this)
function()
}
}
})
}
}
``````

And then create a custom view where you can draw your shapes, below is the code that creates 100 random stars and draws them on canvas.

``````class StarView : View {
constructor(context: Context) : super(context)
constructor(context: Context, attrs: AttributeSet?) : super(context, attrs)
constructor(context: Context, attrs: AttributeSet?, defStyleAttr: Int) : super(context, attrs, defStyleAttr)

val stars: ArrayList<Helper.Star> = arrayListOf()

val paint: Paint = Paint().apply {
isAntiAlias = true
}

init {

// after the view is measured and we have the width and height
afterMeasured {

// create 100 stars
for (i in 0 until 100) {

val star = Helper.Star(
cx = width * Math.random().toFloat(),
cy = height * Math.random().toFloat(),
radius = width * 0.1f * Math.random().toFloat(),
)
star.init()
}
}

}

override fun onDraw(canvas: Canvas) {
stars.forEach {
it.draw(canvas, paint)
}
}
}
``````

Here is the result:

If you want to create a lot of different complex shapes you can use this library. Where you can pass svg shapes using the Path Data as a string. By first creating complex shapes using any SVG vector editor such as

• Microsoft Expression Design