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I am trying to replicate the behavior seen at:


It allows panning and zooming of a photo, but it limits the panning to the bounds of the photo.

The example above using google maps v2 code.

It seems I would have to do the following:

google.maps.event.addListener(map, 'dragend', function() 
    //Get bounds and not allow dragging


(As seen here: How do I limit panning in Google maps API V3?)

My problem is:

  • Images that will be panned/zoomed are dynamic in size, I want a generic solution (if possible)

If it is not possible to have a generic solution, how do I determine the correct LatLon bounds for an image?

Here is what I have so far:

var customTypeOptions = {
  getTileUrl: function(coord, zoom) {
        return "img/earth_tiles/tile-" + zoom + "-" + coord.x + "-" + coord.y + ".jpg";
  tileSize: new google.maps.Size(256, 256),
  maxZoom: 6,
  minZoom: 0,
  name: "Custom Map Type"

var customMapType = new google.maps.ImageMapType(customTypeOptions);

  var myLatlng = new google.maps.LatLng(0, 0);
  var myOptions = {
    center: myLatlng,
    zoom: 3,
     disableDefaultUI: true,
     zoomControl: true

  var map = new google.maps.Map(document.getElementById("map"), myOptions);
    map.mapTypes.set('custom', customMapType);

It works fine, it just allows a user to scroll outside of the photo.

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thanks for the code snippet, but can you also post a link to your current working page? hard to trouble shoot without the actual images –  Suvi Vignarajah Jun 11 '12 at 18:36

2 Answers 2

To be honest, I don't think using Google Maps is really the right approach. Yes, you can probably hack it into working, but it's not really what the library is meant to do. (Something about using a hammer to fit a round screw into a triangular hole.)

Additionally, you're subjecting yourself to both Google's restrictive terms (your site must be public) and their new pricing, which means over 25,000 pageviews/day will cost you — and you're not even using the maps.

Instead, why not use a library designed for tiled zooming of very large images? PanoJS3 seems to fit the bill.

PanoJS3 - An interactive JavaScript widget for panning and zooming a panoramic image stitched together dynamically from smaller tiles. This widget can be used for viewing images that are much larger than the available space in the browser viewport. Examples include panoramas, maps or high resolution document scans.

PanoJS3 supports native navigation on most popular platforms:

  • PCs (zooming using mouse scroll, same as Google Maps)
  • Macs (2D panning with the mouse scroll or touch panels)
  • Mobile devices with touch interfaces: iOS and Android (supports pintch to zoom and pan gestures)
  • Phones and tablets (scales controls according to the screen size)
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I tried pano js, it doesn't have the ability to put points on a mac that are clickable. –  Chris Muench Jun 13 '12 at 16:20
Yeah, Pano doesn't support that (your question didn't mention that you needed that functionality). Of course, I'd still be more inclined to add support for clickable points to PanoJS over hacking Google Maps. –  josh3736 Jun 13 '12 at 17:21
@Chris, you may also try OpenLayers. –  TMS Jul 10 '12 at 17:41
@Tomas - ew. > 720kB of minified JS. OpenLayers is old, slow, and bloated. Leaflet (80kB) is a much better choice for maps. Either way, I think you miss my point: you're hacking a map library into displaying an image, rather than using a library designed to display oversized images. –  josh3736 Jul 10 '12 at 17:55
thanks @josh for the leaflet link! I "missed" that your point intentionally :) The map functionality is good, since one has the polygon and marker func. that OP needs. –  TMS Jul 10 '12 at 18:11

I combined the forevermore coordinate system and the documentation's ImageMapTypes example for the moon's surface

Demo http://jsfiddle.net/yV6xv/33/

Initially, the demo starts at zoom 0, to give an idea of the whole image. After zooming in, panning will be restricted to a rectangle with an aspect ratio defined by the (W)idth and (H)eight textboxes. For this demo, only this ratio W/H, or H/W is important.

I'm assuming your images will be similar to both of the above, fitting in 256x256 tiles, and having a "black border" around the image. Furthermore, that the image stretches all the way to the tiles' edge on the longer dimension. If not (but at least, the image is centered), the viewable area can be modified in the latbound and lngbound variables, which correspond to the coordinate grid (-50,50) x (-50,50) defined in forevermore.

In the demo, when zoomed in and W > H, the aspect ratio is longer horizontally: the whole width of the lunar surface is visible around the center, and the top/bottom horizontal bars will be blocked. That is, the dark craters on the top and bottom of the full image will not be reachable at zooms above 0. Visualizing an actual image with the black borders, some of the "black region" might still show at zoom 1, whose area decreases as the zoom level increases.

When zoomed in and H > W, the reachable area extends vertically. The dark craters directly above and below the center of the whole surface will be reachable, but the left/right areas, not. In this demo, the aspect ratio is changed by updateEdge reading the textboxes; clicking on Set calls updateEdge.

Most of the effort in the code was to prevent the movement outside the desired display area. Both the forevermore method and the "How do I limit Panning" were jumpy or caused errors when I tested, so I came up with a modified version of Range Limiting that takes into account the current zoom level by measuring the screen width and height:

  function updateEdge() {
    imageWidth = parseInt(document.getElementById("imgWidth").value);
    imageHeight = parseInt(document.getElementById("imgHeight").value);
    if(imageWidth > imageHeight) {
      widthPercent = 100;
      heightPercent = imageHeight / imageWidth * 100;
    else {
      heightPercent = 100;
      widthPercent = imageWidth / imageHeight * 100;

    latbound = heightPercent/2.0;
    lngbound = widthPercent/2.0;

    var bounds = map.getBounds();
    var sw = bounds.getSouthWest();
    var ne = bounds.getNorthEast();
    var width = ne.lng() - sw.lng();
    var height = ne.lat() - sw.lat();

    var bottom = Math.min(-latbound+(height/2),-0.000001);
    var left = Math.min(-lngbound+(width/2),-0.000001);
    var top = Math.max(latbound-(height/2),0.000001);
    var right = Math.max(lngbound-(width/2),0.000001);

    allowedBounds = new google.maps.LatLngBounds(
      new google.maps.LatLng(bottom,left),
      new google.maps.LatLng(top,right));

google.maps.event.addListener(map, 'tilesloaded', function() {
google.maps.event.addListener(map, 'zoom_changed', function() {

google.maps.event.addListener(map, 'center_changed', function() {

function boxIn() {
    if (allowedBounds.contains(map.getCenter())) {
    else {
        var mapCenter = map.getCenter();
        var X = mapCenter.lng();
        var Y = mapCenter.lat();

        var AmaxX = allowedBounds.getNorthEast().lng();
        var AmaxY = allowedBounds.getNorthEast().lat();
        var AminX = allowedBounds.getSouthWest().lng();
        var AminY = allowedBounds.getSouthWest().lat();

        if (X < AminX) {
            X = AminX;
        if (X > AmaxX) {
            X = AmaxX;
        if (Y < AminY) {
            Y = AminY;
        if (Y > AmaxY) {
            Y = AmaxY;

        map.setCenter(new google.maps.LatLng(Y, X));

The projection and tile fetching code are not significantly changed from their sources.

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