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Currently in d3 if you have a geoJSON object that you are going to draw you have to scale it and translate it in order to get it to the size that one wants and translate it in order to center it. This is a very tedious task of trial and error, and I was wondering if anyone knew a better way to obtain these values?

So for instance if I have this code

var path, vis, xy;
xy = d3.geo.mercator().scale(8500).translate([0, -1200]);

path = d3.geo.path().projection(xy);

vis ="#vis").append("svg:svg").attr("width", 960).attr("height", 600);

d3.json("../../data/ireland2.geojson", function(json) {
  return vis.append("svg:g")
    .attr("class", "tracts")
    .attr("d", path)
    .attr("fill", "#85C3C0")
    .attr("stroke", "#222");

How the hell do I obtain .scale(8500) and .translate([0, -1200]) without going little by little?

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Thanks for the edit Peter O. –  climboid Jan 30 '13 at 15:25

6 Answers 6

up vote 59 down vote accepted

The following seems to do approximately what you want. The scaling seems to be ok. When applying it to my map there is a small offset. This small offset is probably caused because I use the translate command to center the map, while I should probably use the center command.

  1. Create a projection and d3.geo.path
  2. Calculate the bounds of the current projection
  3. Use these bounds to calculate the scale and translation
  4. Recreate the projection

In code:

  var width  = 300;
  var height = 400;

  var vis ="#vis").append("svg")
      .attr("width", width).attr("height", height)

  d3.json("nld.json", function(json) {
      // create a first guess for the projection
      var center = d3.geo.centroid(json)
      var scale  = 150;
      var offset = [width/2, height/2];
      var projection = d3.geo.mercator().scale(scale).center(center)

      // create the path
      var path = d3.geo.path().projection(projection);

      // using the path determine the bounds of the current map and use 
      // these to determine better values for the scale and translation
      var bounds  = path.bounds(json);
      var hscale  = scale*width  / (bounds[1][0] - bounds[0][0]);
      var vscale  = scale*height / (bounds[1][1] - bounds[0][1]);
      var scale   = (hscale < vscale) ? hscale : vscale;
      var offset  = [width - (bounds[0][0] + bounds[1][0])/2,
                        height - (bounds[0][1] + bounds[1][1])/2];

      // new projection
      projection = d3.geo.mercator().center(center)
      path = path.projection(projection);

      // add a rectangle to see the bound of the svg
      vis.append("rect").attr('width', width).attr('height', height)
        .style('stroke', 'black').style('fill', 'none');

        .attr("d", path)
        .style("fill", "red")
        .style("stroke-width", "1")
        .style("stroke", "black")
share|improve this answer
Hey Jan van der Laan I never thanked you for this response. This is a really good response to by the way if I could split out the bounty I would. Thank for it! –  climboid Feb 19 '13 at 2:34
If I apply this I get bounds = infinity. Any idea on how this can be solved? –  Simke Nys Feb 10 at 20:05
@SimkeNys This might the be the same problem as mentioned here… Try the solution mentioned there. –  Jan van der Laan Feb 11 at 8:29
you are a life saver :) :) –  Uzumaki Naruto Mar 21 at 13:29
Hi Jan, thank you for your code. I tried your example with some GeoJson data but it didn't worked. Can you tell me what I'm doing wrong? :) I uploaded the GeoJson data:… –  user2644964 May 29 at 14:30
up vote 100 down vote

My answer is close to Jan van der Laan’s, but you can simplify things slightly because you don’t need to compute the geographic centroid; you only need the bounding box. And, by using an unscaled, untranslated unit projection, you can simplify the math.

The important part of the code is this:

// Create a unit projection.
var projection = d3.geo.albers()
    .translate([0, 0]);

// Create a path generator.
var path = d3.geo.path()

// Compute the bounds of a feature of interest, then derive scale & translate.
var b = path.bounds(state),
    s = .95 / Math.max((b[1][0] - b[0][0]) / width, (b[1][1] - b[0][1]) / height),
    t = [(width - s * (b[1][0] + b[0][0])) / 2, (height - s * (b[1][1] + b[0][1])) / 2];

// Update the projection to use computed scale & translate.

After comping the feature’s bounding box in the unit projection, you can compute the appropriate scale by comparing the aspect ratio of the bounding box (b[1][0] - b[0][0] and b[1][1] - b[0][1]) to the aspect ratio of the canvas (width and height). In this case, I’ve also scaled the bounding box to 95% of the canvas, rather than 100%, so there’s a little extra room on the edges for strokes and surrounding features or padding.

Then you can compute the translate using the center of the bounding box ((b[1][0] + b[0][0]) / 2 and (b[1][1] + b[0][1]) / 2) and the center of the canvas (width / 2 and height / 2). Note that since the bounding box is in the unit projection’s coordinates, it must be multiplied by the scale (s).

For example,

project to bounding box

There’s a related question where which is how to zoom to a specific feature in a collection without adjusting the projection, i.e., combining the projection with a geometric transform to zoom in and out. That uses the same principles as above, but the math is slightly different because the geometric transform (the SVG "transform" attribute) is combined with the geographic projection.

For example,

zoom to bounding box

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Thank you so much! were big fans at my work of D3, thank you for all the effort put into it. –  climboid Feb 4 '13 at 20:37
I want to point out that there are a few errors in the above code, specifically in the indices of the bounds. It should look like: s = (0.95 / Math.max((b[1][0] - b[0][0]) / width, (b[1][1] - b[0][0]) / height)) * 500, t = [(width - s * (b[1][0] + b[0][0])) / 2, (height - s * (b[1][1] + b[0][1])) / 2]; –  iros Mar 21 '13 at 18:55
@iros - Looks like the * 500 is extraneous here... also, b[1][1] - b[0][0] should be b[1][1] - b[0][1] in the scale calculation. –  nrabinowitz Apr 4 '13 at 20:06
So: b.s = b[0][1]; b.n = b[1][1]; b.w = b[0][0]; b.e = b[1][0]; b.height = Math.abs(b.n - b.s); b.width = Math.abs(b.e - b.w); s = .9 / Math.max(b.width / width, (b.height / height)); –  Herb Caudill Aug 31 '13 at 17:35
It is because of a community like this that D3 is such a joy to work with. Awesome! –  arunkjn Jul 8 '14 at 9:04

I'm new to d3 - will try to explain how I understand it but I'm not sure I got everything right.

The secret is knowing that some methods will operate on the cartographic space (latitude,longitude) and others on the cartesian space (x,y on the screen). The cartographic space (our planet) is (almost) spherical, the cartesian space (screen) is flat - in order to map one over the other you need an algorithm, which is called projection. This space is too short to deep into the fascinating subject of projections and how they distort geographic features in order to turn spherical into plane; some are designed to conserve angles, others conserve distances and so on - there is always a compromise (Mike Bostock has a huge collection of examples).

enter image description here

In d3, the projection object has a center property/setter, given in map units:[location])

If center is specified, sets the projection’s center to the specified location, a two-element array of longitude and latitude in degrees and returns the projection. If center is not specified, returns the current center which defaults to ⟨0°,0°⟩.

There is also the translation, given in pixels - where the projection center stands relative to the canvas:


If point is specified, sets the projection’s translation offset to the specified two-element array [x, y] and returns the projection. If point is not specified, returns the current translation offset which defaults to [480, 250]. The translation offset determines the pixel coordinates of the projection’s center. The default translation offset places ⟨0°,0°⟩ at the center of a 960×500 area.

When I want to center a feature in the canvas, I like to set the projection center to the center of the feature bounding box - this works for me when using mercator (WGS 84, used in google maps) for my country (Brazil), never tested using other projections and hemispheres. You may have to make adjustments for other situations, but if you nail these basic principles you will be fine.

For example, given a projection and path:

var projection = d3.geo.mercator()

var path = d3.geo.path()

The bounds method from path returns the bounding box in pixels. Use it to find the correct scale, comparing the size in pixels with the size in map units (0.95 gives you a 5% margin over the best fit for width or height). Basic geometry here, calculating the rectangle width/height given diagonally opposed corners:

var b = path.bounds(feature),
    s = 0.95 / Math.max(
                   (b[1][0] - b[0][0]) / width, 
                   (b[1][1] - b[0][1]) / height

enter image description here

Use the d3.geo.bounds method to find the bounding box in map units:

b = d3.geo.bounds(feature);

Set the center of the projection to the center of the bounding box:[(b[1][0]+b[0][0])/2, (b[1][1]+b[0][1])/2]);

Use the translate method to move the center of the map to the center of the canvas:

projection.translate([width/2, height/2]);

By now you should have the feature in the center of the map zoomed with a 5% margin.

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Wow! this is a really cool response, thank you Paulo! –  climboid Jun 14 '13 at 16:04
Is there a bl.ocks somewhere ? –  Hugolpz Aug 22 '13 at 15:07
Sorry, no bl.ocks or gist, what are you trying to do? Is it something like a click-to-zoom? Publish it and I can take a look at your code. –  Paulo Scardine Aug 22 '13 at 16:54
Bostock's answer and images provides links to examples which let me to copy engineer a whole code. Job done. +1 and thanks for your great illustrations! –  Hugolpz Sep 1 '13 at 6:31
Nice explanation - thanks! –  Peter Nov 22 '13 at 20:03

There is a center() method you can use that accepts a lat/lon pair.

From what I understand, translate() is only used for literally moving the pixels of the map. I am not sure how to determine what scale is.

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If you are using TopoJSON and want to center the whole map, you can run topojson with --bbox to include a bbox attribute in the JSON object. The lat/lon coordinates for the center should be [(b[0]+b[2])/2, (b[1]+b[3])/2] (where b is the bbox value). –  Paulo Scardine Jun 11 '13 at 4:31

To pan/zoom the map you should look at overlaying the SVG on Leaflet. That will be a lot easier than transforming the SVG. See this example and then How to change the map center in leaflet

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If adding another dependence is of concern, PAN and ZOOM can be done easily in pure d3, see… –  Paulo Scardine Jun 15 '13 at 2:21
This answer doesn't really deal with d3. You can pan/zoom the map in d3 also, leaflet is not necessary. (Just realised this an old post, was just browsing the answers) –  Jurg Dec 10 '14 at 11:00

I was looking around on the Internet for a fuss-free way to center my map, and got inspired by Jan van der Laan and mbostock's answer. Here's an easier way using jQuery if you are using a container for the svg. I created a border of 95% for padding/borders etc.

var width = $("#container").width() * 0.95,
    height = $("#container").width() * 0.95 / 1.9 //using height() doesn't work since there's nothing inside

var projection = d3.geo.mercator().translate([width / 2, height / 2]).scale(width);
var path = d3.geo.path().projection(projection);

var svg ="#container").append("svg").attr("width", width).attr("height", height);

If you looking for exact scaling, this answer won't work for you. But if like me, you wish to display a map that centralizes in a container, this should be enough. I was trying to display the mercator map and found that this method was useful in centralizing my map, and I could easily cut off the Antarctic portion since I didn't need it.

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