MKMapView and Zoom Levels: A Visual Guide

So, how exactly does the code provided in the previous post work? What follows is a visual explanation of Google Maps, zoom levels, and how you go about adding support for zoom levels to the MKMapView class.

Round to Flat

This is planet Earth:

As you may know, it is round.

To create a map of the Earth, the curved surface must be projected onto a flat surface. There are many map projections that attempt to flatten the Earth. There are distortions inherent to every projection, but each map projection aims to preserve at least one quality from the original curved representation.

Some projections preserve area, such as the Mollweide projection:

Equirectangluar projections preserve distance between the meridians:

The Mercator projection stretches out the poles in order to preserve locally measured angles:

Google uses the Mercator projection to render Google Maps:

Mercator Math

The Mercator projection converts latitude (φ) and longitude (λ) coordinates to pixel values. It uses math:

You don’t have to understand the math; just know that it converts latitudes and longitudes to pixels.

But, where are these pixels? Well, it depends on your zoom level.

Zoom Levels

At zoom level 0, Google displays the world in a single 256 pixel by 256 pixel tile:

At zoom level 1, Google doubles the area of the map while keeping the tile size constant. So, the map grows to 512 pixels by 512 pixels and uses four tiles:

At zoom level 2, Google doubles the area again. The map grows to 1024 pixels by 1024 pixels and uses sixteen tiles:

The pixel area continues to double at each zoom level, and when zoom level 20 is reached, the map is 536,870,912 pixels by 536,870,912 pixels. It has so many tiles we won’t bother to count them:

Latitudes and Longitudes to Pixels

As part of the PHP Static Maps project, Mike Tuupola wrote some code that converts latitudes and longitudes to pixels at zoom level 20. The code is easily ported to Objective-C:

// Convert latitude and longitude to pixel values at zoom level 20

#define MERCATOR_OFFSET 268435456 /* (total pixels at zoom level 20) / 2 */
#define MERCATOR_RADIUS 85445659.44705395 /* MERCATOR_OFFSET / pi */

x = round(MERCATOR_OFFSET + MERCATOR_RADIUS * longitude * M_PI / 180.0);
y = round(MERCATOR_OFFSET - MERCATOR_RADIUS * logf((1 + sinf(latitude * M_PI / 180.0)) / (1 - sinf(latitude * M_PI / 180.0))) / 2.0);

To be honest, I haven’t taken the time to wrap my head around how this code works. But, knowing that it does work, we can now take any latitude and longitude and figure out its pixel coordinates at zoom level 20. For instance, here are the pixel coordinates of several cities around the world:

Add an iPhone

Say we place an iPhone on top of Anchorage, Alaska at zoom level 20:

In the iPhone shown above, the map size is 320 pixels by 460 pixels. Since we know the map dimensions and center coordinate in pixels, we can easily compute the pixel coordinates of the top-left corner relative to the center pixel coordinate:

We can find the relative position of the top-right and bottom-left pixel coordinates as well:

The PHP Static Maps code also provides code to go from pixels at zoom level 20 to latitudes and longitudes:

// Convert pixel values at zoom level 20 to latitude and longitude

latitude = (M_PI / 2.0 - 2.0 * atan(exp((round(pixelY) - MERCATOR_OFFSET) / MERCATOR_RADIUS))) * 180.0 / M_PI;
longitude = ((round(pixelX) - MERCATOR_OFFSET) / MERCATOR_RADIUS) * 180.0 / M_PI;

We can use this code to convert the corners from pixel coordinates to latitudes and longitudes:

As shown above, using the corner coordinates, we can compute the latitudinal and longitudinal distances. These distances are exactly what we need to construct an MKCoordinateSpan. That span, in turn, is used to initialize the region property of an MKMapView:

// Create an MKCoordinateSpan to initialize the map’s region

MKCoordinateSpan span = MKCoordinateSpanMake(latitudeDelta, longitudeDelta);
MKCoordinateRegion region = MKCoordinateRegionMake(centerCoordinate, span);
[mapView setRegion:region animated:NO];

And you’re done!…That is, if you want to see zoom level 20. What do you do when your user wants to see the map at zoom level 19 instead of 20?

Scaling using Zoom Levels

Relative to zoom level 20, zooming out one level doubles the area visible on the map.

For example, consider the image below. On the left is Anchorage at zoom level 19, and on the right are the 4 iPhones at zoom level 20 it would take to display the same amount of area:

If we move up another level, the area doubles again. Consider the following image. On the left is Anchorage at zoom level 18, and on the right are the 16 iPhones at zoom level 20 it would take to display the same amount of area:

Since the area doubles at each zoom level, we can define the following exponential relationship between the zoom level and the area covered by the map:

// Compute a scaling factor that will take us from any zoom level to zoom level 20

NSInteger zoomExponent = 20 - zoomLevel;
double zoomScale = pow(2, zoomExponent);

double scaledMapWidth = mapSizeInPixels.width * zoomScale;
double scaledMapHeight = mapSizeInPixels.height * zoomScale;

For instance, here is Anchorage at zoom levels 20, 19, and 18. The map’s width and height in pixels are unaltered:

After computing the zoom scale factor, we can apply it to each map to determine its dimensions at zoom level 20:

After we compute these new dimensions, we plug them into the algorithm for finding the coordinates of the map corners.

An Example: Zoom Level 18

For instance, say we take the map at zoom level 18:

Let’s drop the matrix of phones but keep the scaled width and height:

We find the top-left corner just like we did before, except now we use the scaled width and height:

Similarly, we use the scaled width and height for finding the top-right and bottom-left corners as well:

Using the pixel and latitude and pixel and longitude helper methods, we can compute the coordinates of the corners and the distance between them:

These delta values are used to initialize the map’s region property, and the map zooms to the level you specify.

That’s a Wrap

Be sure to check out the previous post for the full code that adds support for zoom levels to MKMapView.

If you are interested in learning more from someone much smarter than I am, check out these posts from Charlie Savage, a programmer and cartographer extraordinaire:

Much of what I know about maps is from these articles, and I highly recommended checking them out if you want to learn more about how Google Maps works under the hood.

192 Responses to “MKMapView and Zoom Levels: A Visual Guide”

  1. Very nice description.
    I have a comment on the last image (where the zoom-level is 18):
    The lattitude-value should increase from the bottom to the top. That is
    lat@bottom + Delta(lat) = lat@top
    In the image you have

    In the example for zoomlevel 20 everything is OK.
    Thanks again for the very good explanation!

  2. This article is great and very clear. But it seems have a little bug in calculation.

    “The pixel area continues to double at each zoom level, and when zoom level 20 is reached, the map is 536,870,912 pixels by 536,870,912 pixels. It has so many tiles we won’t bother to count them:”

    From the quotes, in zoom level 20 , the map is 536,870,912 pixels by 536,870,912 pixels. But according to the earlier article, in zoom level 20 , the map is 256×2^20 pixels by 256×2^20 pixels, so it should be 268435456 pixels by 268435456 pixels.
    Correct me if I am wrong.

  3. @hustmobile:

    Because if want you to convert latitude and longitude to pixel values (at zoom level 20)

    >#define MERCATOR_OFFSET 268435456 /* (total pixels at zoom level 20) / 2 */
    >#define MERCATOR_RADIUS 85445659.44705395 /* MERCATOR_OFFSET / pi */
    >x = round(MERCATOR_OFFSET + MERCATOR_RADIUS * longitude * M_PI / 180.0);
    >y = round(MERCATOR_OFFSET – MERCATOR_RADIUS * logf((1 + sinf(latitude * M_PI / >180.0)) / (1 – sinf(latitude * M_PI / 180.0))) / 2.0);

    it divide the map in 4 tiles. North,East,South,West directions. That’s the definition of a quadtree. So 268435456 x 268435456 is the midpoint of 536870912 x 536,870,912.

  4. Terrific work! This is the type of information that should be shared around the web. Shame on the search engines for not positioning this post higher!

  5. nice post. thanks.

  6. Keep posting stuff like this i really like it

  7. excellent plain english article that explains projections. I wish you had written this when I started working on iphone maps :)

  8. great post as usual!

  9. Great article, thanks for sharing !

  10. Just one comment : in scaling zoom level, it is written that zooming out doubles the area, isnt it that it double the distances, i.e quadruple the area ?

  11. Very interesting writing! Honest..

  12. If I had a dollar for each time I came here.. Great writing!

  13. Haha am I honestly the first comment to your incredible post?!?

  14. If only more than 84 people could read this.

  15. Excellent! Thank you very much!

  16. I’m a little confused why you’re saying that zoom level 20 has a map that’s 536,870,912^2 pixels – shouldn’t it be half that? 256 x 2^20 = 268435456, doesn’t it?

    I think this is what hustmobile was asking above.

    I can see that you’d have to divide this number in half again to get the ‘mercator offset’ for the code, but it still seems the number is off.

  17. hey want to comment that the zoom level doesn’t start at 0 but from 1 to 21. (you should update the source code). Because if you compare the iPhone map for example on zoom 16 with the map on the google webpage, you will see ;)
    simply change “NSInteger zoomExponent = 20 – zoomLevel;” to “…21 – …”

  18. This article is great Troy, thanks a lot!

  19. I have one question. Why do you use:

    // clamp large numbers to 28
    zoomLevel = MIN(zoomLevel, 28);

    when the maximum zoom levels are 20?

  20. Is there a reason you don’t use the built in methods to convert from latitude/longitude to pixel space? Namely the methods MKMapPointForCoordinate and MKCoordinateForMapPoint? Using these methods I think I modified your code to do the same thing. Basically I removed your conversiont code and then modified the helper method like so:

    - (MKCoordinateSpan)coordinateSpanWithMapView:(MKMapView *)mapView
    // convert center coordiate to pixel space
    MKMapPoint center = MKMapPointForCoordinate(centerCoordinate);

    // determine the scale value from the zoom level
    NSInteger zoomExponent = 20 – zoomLevel;
    double zoomScale = pow(2, zoomExponent);

    // scale the map’s size in pixel space
    CGSize mapSizeInPixels = mapView.bounds.size;
    CGFloat scaledMapWidth = mapSizeInPixels.width * zoomScale;
    CGFloat scaledMapHeight = mapSizeInPixels.height * zoomScale;

    // figure out the position of the top-left pixel
    MKMapPoint topLeftPoint = MKMapPointMake(center.x – (scaledMapWidth / 2), center.y – (scaledMapHeight / 2));

    MKMapPoint minPoint = MKMapPointMake(topLeftPoint.x, topLeftPoint.y);
    CLLocationCoordinate2D minCoord = MKCoordinateForMapPoint(minPoint);
    MKMapPoint maxPoint = MKMapPointMake(topLeftPoint.x + scaledMapWidth, topLeftPoint.y + scaledMapHeight);
    CLLocationCoordinate2D maxCoord = MKCoordinateForMapPoint(maxPoint);

    // find delta between left and right longitudes
    CLLocationDegrees longitudeDelta = maxCoord.longitude – minCoord.longitude;

    // find delta between top and bottom latitudes
    CLLocationDegrees latitudeDelta = -1 * (maxCoord.latitude – minCoord.latitude);

    // create and return the lat/lng span
    MKCoordinateSpan span = MKCoordinateSpanMake(latitudeDelta, longitudeDelta);
    return span;

  21. Hmm, I’ve noticed a slight issue with my previous code, when I set the zoom to 0 or 1 I get an error, but all other zoom levels seem to work fine, and produce similar results to what your code does.

  22. Reverting back to your code, I noticed that I also get an error with zoom level 0, but not zoom level 1.

  23. This is just so awesome. I believe my first comment on any blog. Thank you so much!

  24. This is very interesting, You are an overly skilled blogger.

    I’ve joined your rss feed and sit up for in quest of extra of your great post. Also, I have shared your website in my social networks

  25. Are you sure that the Zoom Level in the example is 18?

    I test:

    CLLocationCoordinate2D center = CLLocationCoordinate2DMake(61.189556, -149.826082);
    MKCoordinateSpan span = MKCoordinateSpanMake(0.004757, 0.006866);
    CGSize mapViewSize = CGSizeMake(1280, 1840);

    I got the zoom level is 17.

    And I also compute the latitudes and longitudes over zoom level 17, I got the region:

    (MKCoordinateRegion) region = {
    center = {
    latitude = 61.189556
    longitude = -149.826082
    span = {
    latitudeDelta = 0.00475692749023438
    longitudeDelta = 0.006866455078125

    It seem right when zoom level is 17, not 18.

    please tell me if I am wrong. :)

  26. OK,
    I don’t care about zoom level explanations later on but clearly
    sequence of pics with zoom of 0, 1, 2, .., 20
    should have relative width/heights as 256, 512, 1024, … 268435456.

  27. Just a few more comments.
    1. take a look at this implementation:
    and read comments in the source.
    2. check MKMapWorld structure to see that in fact the map size is 268435456 x 268435456.
    3. Apple does use top-to bottom approach which is described here.
    I mean, it goes not from zoom [0] UP to the current one but from zoom [20] DOWN to the current one; hence, all these ‘weird’ calculations posted here are exactly what Apple is doing.
    Just compare results from:
    MKMapPoint center = MKMapPointForCoordinate(centerCoordinate);
    the ones from formulas in “Latitudes and Longitudes to Pixels”
    as it was mentioned by Jeff Sawatzky before.
    4. For Apple zoom [0] means in fact zoom [1], i.e. 4 tiles. That is why the whole thing crashes at zoom [0].

  28. Asking questions are genuinely agreeable thing if you are not understanding something completely whatsoever this story gives pleasant understanding even.

  29. Amazing movie,actually a fine quality, this YouTube movie touched me a lot amid terms of features.

  30. I want to plot an annotation on world map image in an ipad at zoom level 0 & I’m confused about the offset and radius what to take. Please help!
    Thanks in advance.

  31. Hello, I equitable wanted apt mention, I dissimilar Your post doesn’t tell any sense.

  32. I don抰 waste my free phase among watching video tutorials although I worship to peruse content on net and obtain updated from latest technologies.

  33. The owners of a Carol Stream carpet store who are mulling a move to should not count on any financial assistance from the city.

  34. MONTEREY, Calif., May 27, 2015 /PRNewswire/ TED, the nonprofit devoted to Ideas Worth Spreading, opens its TEDWomen 2015 conference today at the Monterey Convention Center in California. Themed “Momentum,” the event will feature a live program of more than 40 speakers and performers over three days. TED will broadcast the TED Talks in real time to nearly 250 simultaneous TEDxWomen events held in 68 countries around the world.

  35. Andd I was capable to do iit witout giving up my dating life!

    Sometimes it’s just all about knowing where to look, and purchasing
    a seller that yoou might be happy with.

  36. Excellent!!

  37. Individuals ought to keep away from a doubtlessly nasty scenario and go ith a company that they’ve
    researced and so they know they can belief.

  38. Admiring the time and effort you put into your blog and in depth information you
    provide. It’s awesome to come across a blog every once in a while that isn’t the
    same outdated rehashed material. Wonderful read! I’ve saved your
    site and I’m adding your RSS feeds to my Google account.

  39. I do believe all the ideas you’ve introduced in your post.
    They’re very convincing and can certainly work. Still, the posts are too quick for newbies.

    May just you please lengthen them a bit from subsequent time?
    Thank you for the post.

  40. The striking settings – with their rich and humorous ecology, colorful and cosmopolitan races and fantastic,
    sometimes haunting atmosphere – are nicely varied and a pleasure to explore.
    Besides, you can purchase Wo – W items at suitable prices.
    The games are fun to play and accommodate
    diverse activities.

  41. There has always been a small to medium sized
    cult following for the genre, but few films break out to become
    widely popular. The LEGO Death Star 2 was created to help fans relive the movie’s most epic moments and have fun building
    up the model at the same time. And the only way to offset
    these price tags is to gain a wider audience for the films.

  42. S/he is alrwady gone to the courtrom home, found
    an lawyer and haas a service date set for the divorce proceedings.

  43. In aggressive style that is legitimate, challenge your competitors
    throughout the World for online table soccer suits!the overall
    game has players throughout the Globe.

  44. After just a few heroic nights of sweaty ecstasy, we turned that King
    Koil into a King Soiled.

  45. Hello mates, its fantastic piece of writing on the topic of tutoringand entirely explained, keep it up all the time.

  46. I enjoy, lead to I found exactly what I used to be looking
    for. You’ve ended my 4 day long hunt! God Bless you man. Have a nice day.


  47. Check out Evite’s a whole lot of youngsters’ birthday invitations for inspiration.

  48. Obviously, aan Internet marketiing firm can’t
    use the idenical techniques that a traditional promoting agency would use,
    similar to tv commerrcials and special promotions.

  49. So, it was apparent that that they had arbijtrarily turned off her informarion service,
    with nno notice to anyone, and then drafted cash for thhe subsequent mointh of service, knowing thhat they were not going to offer service.

  50. TheraKare is a premier provider off staffing sewrvices on a nationwide foundation throughout a
    spectrum of allied medical fields.

1 2 3 4

Leave a Reply