I want to be able to zoom in on the point under the mouse in an HTML 5 canvas, like zooming on Google Maps. How can I achieve that?

  • 2
    I used this for zooming my canvas and it works great! The only thing i have to add is, that the calculation of the zoom amount is not as you would expect. "var zoom = 1 + wheel/2;" i.e. this results in 1.5 for zooming in and 0.5 for zooming out. I edited this in my version so that i have 1.5 for zooming in and 1/1.5 for zooming out which makes the amount of zooming in and zooming out equal. So if you zoom in once and zoom back you will have the same picture as before the zooming. – Chris Jul 22 '11 at 14:46
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    Note that this doesn't work on Firefox, but the method can easily be applied to jQuery mousewheel plugin. Thanks for sharing! – johndodo Nov 16 '11 at 17:11
  • 1
    var zoom = Math.pow(1.5f, wheel); // Use this to calculate zoom. It has the benefit that zooming by wheel=2 is the same as zooming twice by wheel=1. In addition, zooming in by +2 and out by +2 restores the original scale. – Matt Sep 25 '13 at 11:43

13 Answers 13


The better solution is to simply move the position of the viewport based on the change in the zoom. The zoom point is simply the point in the old zoom and the new zoom that you want to remain the same. Which is to say the viewport pre-zoomed and the viewport post-zoomed have the same zoompoint relative to the viewport. Given that we're scaling relative to the origin. You can adjust the viewport position accordingly:

scalechange = newscale - oldscale;
offsetX = -(zoomPointX * scalechange);
offsetY = -(zoomPointY * scalechange);

So really you can just pan over down and to the right when you zoom in, by a factor of how much you zoomed in, relative to the point you zoomed at.

enter image description here

  • 2
    More valuable than cut and paste code is the explanation of what the best solution is and why it works without the baggage especially if it is three lines long. – Tatarize Jul 31 '15 at 12:45
  • 2
    scalechange = newscale / oldscale? – Tejesh Alimilli Oct 9 '15 at 5:39
  • 4
    also, i would like to add for the ones seeking to achieve a map like pan-zoom component, that the mouse X, Y should be (mousePosRelativeToContainer - currentTransform)/currentScale otherwise it will treat the current mouse position as relative to the container. – Gilad Feb 1 '16 at 3:50
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    @C.Finke The second way it can be done is by using the translations within the ctx. You draw everything the same size and in the same positions. But, you simply use the matrix multiplications within the javascript canvas to set the pan and the scale (zoom) of the context. So rather than redraw all the shapes in a different location. You draw them in the same place and move the viewport within javascript. This method would also require that you take the mouse events and translate them backwards. So you'd subtract the pan, then reverse the factor by the zoom. – Tatarize Feb 9 '16 at 11:56
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    This is nice solution, but for me, i needed to divide result offsets by new_zoom. var offsetX = -(mouse_offset_x * scalechange)/newzoom; – saike Jul 16 '16 at 9:21

Finally solved it:

var zoomIntensity = 0.2;

var canvas = document.getElementById("canvas");
var context = canvas.getContext("2d");
var width = 600;
var height = 200;

var scale = 1;
var originx = 0;
var originy = 0;
var visibleWidth = width;
var visibleHeight = height;

function draw(){
    // Clear screen to white.
    context.fillStyle = "white";
    // Draw the black square.
    context.fillStyle = "black";
// Draw loop at 60FPS.
setInterval(draw, 1000/60);

canvas.onwheel = function (event){
    // Get mouse offset.
    var mousex = event.clientX - canvas.offsetLeft;
    var mousey = event.clientY - canvas.offsetTop;
    // Normalize wheel to +1 or -1.
    var wheel = event.deltaY < 0 ? 1 : -1;

    // Compute zoom factor.
    var zoom = Math.exp(wheel*zoomIntensity);
    // Translate so the visible origin is at the context's origin.
    context.translate(originx, originy);
    // Compute the new visible origin. Originally the mouse is at a
    // distance mouse/scale from the corner, we want the point under
    // the mouse to remain in the same place after the zoom, but this
    // is at mouse/new_scale away from the corner. Therefore we need to
    // shift the origin (coordinates of the corner) to account for this.
    originx -= mousex/(scale*zoom) - mousex/scale;
    originy -= mousey/(scale*zoom) - mousey/scale;
    // Scale it (centered around the origin due to the trasnslate above).
    context.scale(zoom, zoom);
    // Offset the visible origin to it's proper position.
    context.translate(-originx, -originy);

    // Update scale and others.
    scale *= zoom;
    visibleWidth = width / scale;
    visibleHeight = height / scale;
<canvas id="canvas" width="600" height="200"></canvas>

The key, as @Tatarize pointed out, is to compute the axis position such that the zoom point (mouse pointer) remains in the same place after the zoom.

Originally the mouse is at a distance mouse/scale from the corner, we want the point under the mouse to remain in the same place after the zoom, but this is at mouse/new_scale away from the corner. Therefore we need to shift the origin (coordinates of the corner) to account for this.

originx -= mousex/(scale*zoom) - mousex/scale;
originy -= mousey/(scale*zoom) - mousey/scale;
scale *= zomm

The remaining code then needs to apply the scaling and translate to the draw context so it's origin coincides with the canvas corner.

  • Thank you dude, almost lost 2 days, before finding your code – Velaro Feb 6 at 8:20

This is actually a very difficult problem (mathematically), and I'm working on the same thing almost. I asked a similar question on Stackoverflow but got no response, but posted in DocType (StackOverflow for HTML/CSS) and got a response. Check it out http://doctype.com/javascript-image-zoom-css3-transforms-calculate-origin-example

I'm in the middle of building a jQuery plugin that does this (Google Maps style zoom using CSS3 Transforms). I've got the zoom to mouse cursor bit working fine, still trying to figure out how to allow the user to drag the canvas around like you can do in Google Maps. When I get it working I'll post code here, but check out above link for the mouse-zoom-to-point part.

I didn't realise there was scale and translate methods on Canvas context, you can achieve the same thing using CSS3 eg. using jQuery:

$('div.canvasContainer > canvas')
    .css('-moz-transform', 'scale(1) translate(0px, 0px)')
    .css('-webkit-transform', 'scale(1) translate(0px, 0px)')
    .css('-o-transform', 'scale(1) translate(0px, 0px)')
    .css('transform', 'scale(1) translate(0px, 0px)');

Make sure you set the CSS3 transform-origin to 0, 0 (-moz-transform-origin: 0 0). Using CSS3 transform allows you to zoom in on anything, just make sure the container DIV is set to overflow: hidden to stop the zoomed edges spilling out of the sides.

Whether you use CSS3 transforms, or canvas' own scale and translate methods is upto you, but check the above link for the calculations.

Update: Meh! I'll just post the code here rather than get you to follow a link:

    var scale = 1;  // scale of the image
    var xLast = 0;  // last x location on the screen
    var yLast = 0;  // last y location on the screen
    var xImage = 0; // last x location on the image
    var yImage = 0; // last y location on the image

    // if mousewheel is moved
    $("#mosaicContainer").mousewheel(function(e, delta)
        // find current location on screen 
        var xScreen = e.pageX - $(this).offset().left;
        var yScreen = e.pageY - $(this).offset().top;

        // find current location on the image at the current scale
        xImage = xImage + ((xScreen - xLast) / scale);
        yImage = yImage + ((yScreen - yLast) / scale);

        // determine the new scale
        if (delta > 0)
            scale *= 2;
            scale /= 2;
        scale = scale < 1 ? 1 : (scale > 64 ? 64 : scale);

        // determine the location on the screen at the new scale
        var xNew = (xScreen - xImage) / scale;
        var yNew = (yScreen - yImage) / scale;

        // save the current screen location
        xLast = xScreen;
        yLast = yScreen;

        // redraw
        $(this).find('div').css('-moz-transform', 'scale(' + scale + ')' + 'translate(' + xNew + 'px, ' + yNew + 'px' + ')')
                           .css('-moz-transform-origin', xImage + 'px ' + yImage + 'px')
        return false;

You will of course need to adapt it to use the canvas scale and translate methods.

Update 2: Just noticed I'm using transform-origin together with translate. I've managed to implement a version that just uses scale and translate on their own, check it out here http://www.dominicpettifer.co.uk/Files/Mosaic/MosaicTest.html Wait for the images to download then use your mouse wheel to zoom, also supports panning by dragging the image around. It's using CSS3 Transforms but you should be able to use the same calculations for your Canvas.

  • i finally solved it, took me 3 minutes now after about 2weeks of doing something else – csiz Jun 30 '10 at 17:54
  • @Synday Ironfoot link on his update is not working. This link : dominicpettifer.co.uk/Files/Mosaic/MosaicTest.html i want this impelementation. Can you post here the code? thanks – Bogz Sep 4 '14 at 4:41
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    as of today (sept.2014) the link to MosaicTest.html is dead. – Chris Sep 16 '14 at 10:46
  • mosaic demo is gone. I use vanilla js usually and not jQuery. what is $(this) referring to? the document.body.offsetTop? I really want to see the mosaic demo my foreverscape.com project could really stand to benefit from it. – FlavorScape Jan 30 '16 at 22:00
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    The mosaic demo page is saved on archive.org: web.archive.org/web/20130126152008/http://… – Chris Mar 16 '16 at 2:32

I like Tatarize's answer, but I'll provide an alternative. This is a trivial linear algebra problem, and the method I present works well with pan, zoom, skew, etc. That is, it works well if your image is already transformed.

When a matrix is scaled, the scale is at point (0, 0). So, if you have an image and scale it by a factor of 2, the bottom-right point will double in both the x and y directions (using the convention that [0, 0] is the top-left of the image).

If instead you would like to zoom the image about the center, then a solution is as follows: (1) translate the image such that its center is at (0, 0); (2) scale the image by x and y factors; (3) translate the image back. i.e.

  .translate(image.width / 2, image.height / 2)    // 3
  .scale(xFactor, yFactor)                         // 2
  .translate(-image.width / 2, -image.height / 2); // 1

More abstractly, the same strategy works for any point. If, for example, you want to scale the image at a point P:

  .translate(P.x, P.y)
  .scale(xFactor, yFactor)
  .translate(-P.x, -P.y);

And lastly, if the image is already transformed in some manner (for example, if it's rotated, skewed, translated, or scaled), then the current transformation needs to be preserved. Specifically, the transform defined above needs to be post-multiplied (or right-multiplied) by the current transform.

  .translate(P.x, P.y)
  .scale(xFactor, yFactor)
  .translate(-P.x, -P.y)

There you have it. Here's a plunk that shows this in action. Scroll with the mousewheel on the dots and you'll see that they consistently stay put. (Tested in Chrome only.) http://plnkr.co/edit/3aqsWHPLlSXJ9JCcJzgH?p=preview

  • 1
    I must say, if you have a affine transformation matrix available to you, use that with enthusiasm. A lot of transformation matrices will even have zoom(sx,sy,x,y) functions that does exactly that. It's almost worth cooking one up if you aren't given one to use. – Tatarize Aug 17 '18 at 8:23
  • In fact, I confess that in the code I used this solution in, has since been replaced it with a matrix class. And I've done this exact thing multiple times and have cooked up matrix classes no fewer than twice. ( github.com/EmbroidePy/pyembroidery/blob/master/pyembroidery/… ), ( github.com/EmbroidePy/EmbroidePy/blob/master/embroidepy/… ). If you want anything more complex than exactly these operations a matrix is basically the correct answer and once you've got a handle on the linear algebra you realize this answer is actually the best answer. – Tatarize Dec 17 '18 at 21:20

I ran into this problem using c++, which I probably shouldn't have had i just used OpenGL matrices to begin with...anyways, if you're using a control whose origin is the top left corner, and you want pan/zoom like google maps, here's the layout (using allegro as my event handler):

// initialize
double originx = 0; // or whatever its base offset is
double originy = 0; // or whatever its base offset is
double zoom = 1;



    // ...set up your window with whatever
    //  tool you want, load resources, etc

    while (running){
        /* Pan */
        /* Left button scrolls. */
        if (mouse == 1) {
            // get the translation (in window coordinates)
            double scroll_x = event.mouse.dx; // (x2-x1) 
            double scroll_y = event.mouse.dy; // (y2-y1) 

            // Translate the origin of the element (in window coordinates)      
            originx += scroll_x;
            originy += scroll_y;

        /* Zoom */ 
        /* Mouse wheel zooms */
        if (event.mouse.dz!=0){    
            // Get the position of the mouse with respect to 
            //  the origin of the map (or image or whatever).
            // Let us call these the map coordinates
            double mouse_x = event.mouse.x - originx;
            double mouse_y = event.mouse.y - originy;

            lastzoom = zoom;

            // your zoom function 
            zoom += event.mouse.dz * 0.3 * zoom;

            // Get the position of the mouse
            // in map coordinates after scaling
            double newx = mouse_x * (zoom/lastzoom);
            double newy = mouse_y * (zoom/lastzoom);

            // reverse the translation caused by scaling
            originx += mouse_x - newx;
            originy += mouse_y - newy;


    // NOTE:The following is pseudocode
    //          the point is that this method applies so long as
    //          your object scales around its top-left corner
    //          when you multiply it by zoom without applying a translation.

    // draw your object by first scaling...
    object.width = object.width * zoom;
    object.height = object.height * zoom;

    //  then translating...
    object.X = originx;
    object.Y = originy; 

Here's my solution for a center-oriented image:

var MIN_SCALE = 1;
var MAX_SCALE = 5;
var scale = MIN_SCALE;

var offsetX = 0;
var offsetY = 0;

var $image     = $('#myImage');
var $container = $('#container');

var areaWidth  = $container.width();
var areaHeight = $container.height();

$container.on('wheel', function(event) {
    var clientX = event.originalEvent.pageX - $container.offset().left;
    var clientY = event.originalEvent.pageY - $container.offset().top;

    var nextScale = Math.min(MAX_SCALE, Math.max(MIN_SCALE, scale - event.originalEvent.deltaY / 100));

    var percentXInCurrentBox = clientX / areaWidth;
    var percentYInCurrentBox = clientY / areaHeight;

    var currentBoxWidth  = areaWidth / scale;
    var currentBoxHeight = areaHeight / scale;

    var nextBoxWidth  = areaWidth / nextScale;
    var nextBoxHeight = areaHeight / nextScale;

    var deltaX = (nextBoxWidth - currentBoxWidth) * (percentXInCurrentBox - 0.5);
    var deltaY = (nextBoxHeight - currentBoxHeight) * (percentYInCurrentBox - 0.5);

    var nextOffsetX = offsetX - deltaX;
    var nextOffsetY = offsetY - deltaY;

        transform : 'scale(' + nextScale + ')',
        left      : -1 * nextOffsetX * nextScale,
        right     : nextOffsetX * nextScale,
        top       : -1 * nextOffsetY * nextScale,
        bottom    : nextOffsetY * nextScale

    offsetX = nextOffsetX;
    offsetY = nextOffsetY;
    scale   = nextScale;
body {
    background-color: orange;
#container {
    margin: 30px;
    width: 500px;
    height: 500px;
    background-color: white;
    position: relative;
    overflow: hidden;
img {
    position: absolute;
    top: 0;
    bottom: 0;
    left: 0;
    right: 0;
    max-width: 100%;
    max-height: 100%;
    margin: auto;
<script src="https://ajax.googleapis.com/ajax/libs/jquery/1.11.1/jquery.min.js"></script>

<div id="container">
    <img id="myImage" src="http://s18.postimg.org/eplac6dbd/mountain.jpg">


I want to put here some information for those, who do separately drawing of picture and moving -zooming it.

This may be useful when you want to store zooms and position of viewport.

Here is drawer:

function redraw_ctx(){
   self.ctx.clearRect(0,0,canvas_width, canvas_height)
   self.ctx.scale(self.data.zoom, self.data.zoom) // 
   self.ctx.translate(self.data.position.left, self.data.position.top) // position second
   // Here We draw useful scene My task - image:
   self.ctx.drawImage(self.img ,0,0) // position 0,0 - we already prepared
   self.ctx.restore(); // Restore!!!

Notice scale MUST be first.

And here is zoomer:

function zoom(zf, px, py){
    // zf - is a zoom factor, which in my case was one of (0.1, -0.1)
    // px, py coordinates - is point within canvas 
    // eg. px = evt.clientX - canvas.offset().left
    // py = evt.clientY - canvas.offset().top
    var z = self.data.zoom;
    var x = self.data.position.left;
    var y = self.data.position.top;

    var nz = z + zf; // getting new zoom
    var K = (z*z + z*zf) // putting some magic

    var nx = x - ( (px*zf) / K ); 
    var ny = y - ( (py*zf) / K);

    self.data.position.left = nx; // renew positions
    self.data.position.top = ny;   
    self.data.zoom = nz; // ... and zoom
    self.redraw_ctx(); // redraw context

and, of course, we would need a dragger:

    if (is_drag){
        var cur_pos = {x: evt.clientX - off.left,
                       y: evt.clientY - off.top}
        var diff = {x: cur_pos.x - old_pos.x,
                    y: cur_pos.y - old_pos.y}

        self.data.position.left += (diff.x / self.data.zoom);  // we want to move the point of cursor strictly
        self.data.position.top += (diff.y / self.data.zoom);

        old_pos = cur_pos;



Here's an alternate way to do it that uses setTransform() instead of scale() and translate(). Everything is stored in the same object. The canvas is assumed to be at 0,0 on the page, otherwise you'll need to subtract its position from the page coords.

this.zoomIn = function (pageX, pageY) {
    var zoomFactor = 1.1;
    this.scale = this.scale * zoomFactor;
    this.lastTranslation = {
        x: pageX - (pageX - this.lastTranslation.x) * zoomFactor,
        y: pageY - (pageY - this.lastTranslation.y) * zoomFactor
    this.canvasContext.setTransform(this.scale, 0, 0, this.scale,
this.zoomOut = function (pageX, pageY) {
    var zoomFactor = 1.1;
    this.scale = this.scale / zoomFactor;
    this.lastTranslation = {
        x: pageX - (pageX - this.lastTranslation.x) / zoomFactor,
        y: pageY - (pageY - this.lastTranslation.y) / zoomFactor
    this.canvasContext.setTransform(this.scale, 0, 0, this.scale,

Accompanying code to handle panning:

this.startPan = function (pageX, pageY) {
    this.startTranslation = {
        x: pageX - this.lastTranslation.x,
        y: pageY - this.lastTranslation.y
this.continuePan = function (pageX, pageY) {
    var newTranslation = {x: pageX - this.startTranslation.x,
                          y: pageY - this.startTranslation.y};
    this.canvasContext.setTransform(this.scale, 0, 0, this.scale,
                                    newTranslation.x, newTranslation.y);
this.endPan = function (pageX, pageY) {
    this.lastTranslation = {
        x: pageX - this.startTranslation.x,
        y: pageY - this.startTranslation.y

To derive the answer yourself, consider that the same page coordinates need to match the same canvas coordinates before and after the zoom. Then you can do some algebra starting from this equation:

(pageCoords - translation) / scale = canvasCoords

if(wheel > 0) {
    this.scale *= 1.1; 
    this.offsetX -= (mouseX - this.offsetX) * (1.1 - 1);
    this.offsetY -= (mouseY - this.offsetY) * (1.1 - 1);
else {
    this.scale *= 1/1.1; 
    this.offsetX -= (mouseX - this.offsetX) * (1/1.1 - 1);
    this.offsetY -= (mouseY - this.offsetY) * (1/1.1 - 1);

Here's a code implementation of @tatarize's answer, using PIXI.js. I have a viewport looking at part of a very big image (e.g. google maps style).

$canvasContainer.on('wheel', function (ev) {

    var scaleDelta = 0.02;
    var currentScale = imageContainer.scale.x;
    var nextScale = currentScale + scaleDelta;

    var offsetX = -(mousePosOnImage.x * scaleDelta);
    var offsetY = -(mousePosOnImage.y * scaleDelta);

    imageContainer.position.x += offsetX;
    imageContainer.position.y += offsetY;


  • $canvasContainer is my html container.
  • imageContainer is my PIXI container that has the image in it.
  • mousePosOnImage is the mouse position relative to the entire image (not just the view port).

Here's how I got the mouse position:

  imageContainer.on('mousemove', _.bind(function(ev) {
    mousePosOnImage = ev.data.getLocalPosition(imageContainer);
    mousePosOnViewport.x = ev.data.originalEvent.offsetX;
    mousePosOnViewport.y = ev.data.originalEvent.offsetY;

You need to get the point in world space (opposed to screen space) before and after zooming, and then translate by the delta.

mouse_world_position = to_world_position(mouse_screen_position);
mouse_world_position_new = to_world_position(mouse_screen_position);
translation += mouse_world_position_new - mouse_world_position;

Mouse position is in screen space, so you have to transform it to world space. Simple transforming should be similar to this:

world_position = screen_position / scale - translation

you can use scrollto(x,y) function to handle the position of scrollbar right to the point that you need to be showed after zooming.for finding the position of mouse use event.clientX and event.clientY. this will help you


One important thing... if you have something like:

body {
  zoom: 0.9;

You need make the equivilent thing in canvas:

canvas {
  zoom: 1.1;

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