I'm trying to get the screen position of a node after the layout has been transformed by d3.behavior.zoom() but I'm not having much luck. How might I go about getting a node's actual position in the window after translating and scaling the layout?

mouseOver = function(node) {
  screenX = magic(node.x); // Need a magic function to transform node
  screenY = magic(node.y); // positions into screen coordinates.

Any guidance would be appreciated.

EDIT: 'node' above is a force layout node, so it's x and y properties are set by the simulation and remain constant after the simulation comes to rest, regardless of what type of transform is applied.

EDIT: The strategy I'm using to transform the SVG comes from d3's zoom behavior, which is outlined here: SVG Geometric Zooming.

var svg = d3.select("body").append("svg")
    .attr("width", width)
    .attr("height", height)
    .call(d3.behavior.zoom().scaleExtent([1, 8]).on("zoom", zoom))

    .attr("class", "overlay")
    .attr("width", width)
    .attr("height", height);

    .attr("r", 2.5)
    .attr("transform", function(d) { return "translate(" + d + ")"; });

function zoom() {
  svg.attr("transform", "translate(" + d3.event.translate + ")scale(" + d3.event.scale + ")");

It's pretty straightforward. d3's zoom behavior delivers pan and zoom events to a handler, which applies the transforms to the container element by way of the transform attribute.

EDIT: I'm working around the issue by using mouse coordinates instead of node coordinates, since I'm interested in the node position when the node is hovered over with the mouse pointer. It's not exactly the behavior I'm after, but it works for the most part, and is better than nothing.

EDIT: The solution was to get the current transformation matrix of the svg element with element.getCTM() and then use it to offset the x and y coordinates to a screen-relative state. See below.

  • I suspect the answer might involve doing something with getCTM() and/or getScreenCTM() of the SVG element Basic Data Types. I'm wondering if there are helper methods to operate on the matrices returned by those functions, such as Inverse(tm) or something to that effect. – t.888 Sep 1 '13 at 17:38

You can try node.getBBox() to get the pixel positions of a tight bounding box around the node shapes after any transform has been applied. See here for more: link.


getBBox doesn't work quite the way I thought. Since the rectangle is defined in terms of the transformed coordinate space it is always relative to the parent <g> and will therefore always be the same for contained shapes.

There is another function called element.getBoundingClientRect that appears to be quite widely supported and it returns its rectangle in pixel position relative to the top left of the browser view port. That might get you closer to what you want without needing to mess with the transform matrix directly.

  • Thanks for the link. The doc definitely says that getBBox() is post transform, but I'm getting the same coordinates for node.x and node.y as I do for el.getBBox().x and el.getBBox().y. Just to note, 'node' is a force layout node which is part of the selection's data. – t.888 Sep 1 '13 at 2:59
  • What is the transform that is applied to the element at the time getBBox is called? – Scott Cameron Sep 1 '13 at 6:36
  • I edited my post in an attempt to answer your question. I'm applying translate and scale transforms via the container's transform attribute. SVG Geometric Zooming – t.888 Sep 1 '13 at 16:52
  • If you look in the Elements tab of the Chrome dev tools, what is the actual value of the transform attribute on the element? Does it make sense with what getBBox is telling you? – Scott Cameron Sep 1 '13 at 17:07
  • The transform is actually being applied to the parent 'svg:g' element. However inspecting cx and cy for the svg node show that those values don't change when the layout is transformed, and those values are consistent with the values returned by getBBox(). – t.888 Sep 1 '13 at 17:24

It appears the solution to my original question looks something like this:

(Updated to support rotation transforms.)

// The magic function.
function getScreenCoords(x, y, ctm) {
    var xn = ctm.e + x*ctm.a + y*ctm.c;
    var yn = ctm.f + x*ctm.b + y*ctm.d;
    return { x: xn, y: yn };

var circle = document.getElementById('svgCircle'),
cx = +circle.getAttribute('cx'),
cy = +circle.getAttribute('cy'),
ctm = circle.getCTM(),
coords = getScreenCoords(cx, cy, ctm);
console.log(coords.x, coords.y); // shows coords relative to my svg container

Alternately, this can also be done using the translate and scale properties from d3.event (if rotation transforms are not needed):

// This function is called by d3's zoom event.
function zoom() {

// The magic function - converts node positions into positions on screen.    
function getScreenCoords(x, y, translate, scale) {
    var xn = translate[0] + x*scale;
    var yn = translate[1] + y*scale;
    return { x: xn, y: yn };

// Get element coordinates and transform them to screen coordinates.
var circle = document.getElementById('svgCircle');
cx = +circle.getAttribute('cx'),
cy = +circle.getAttribute('cy'),
coords = getScreenCoords(cx, cy, d3.event.translate, d3.event.scale);
console.log(coords.x, coords.y); // shows coords relative to my svg container

  // ...

EDIT: I found the below form of the function to be the most useful and generic, and it seems to stand up where getBoundingClientRect falls down. More specifically, when I was trying to get accurate SVG node positions in a D3 force layout project, getBoundingClientRect produced inaccurate results while the below method returned the circle element's exact center coordinates across multiple browsers.

(Updated to support rotation transforms.)

// Pass in the element and its pre-transform coords
function getElementCoords(element, coords) {
    var ctm = element.getCTM(),
    x = ctm.e + coords.x*ctm.a + coords.y*ctm.c,
    y = ctm.f + coords.x*ctm.b + coords.y*ctm.d;
    return {x: x, y: y};

// Get post-transform coords from the element.
var circle = document.getElementById('svgCircle'),
x = +circle.getAttribute('cx'),
y = +circle.getAttribute('cy'),
coords = getElementCoords(circle, {x:x, y:y});

// Get post-transform coords using a 'node' object.
// Any object with x,y properties will do.
var node = ..., // some D3 node or object with x,y properties.
circle = document.getElementById('svgCircle'),
coords = getElementCoords(circle, node);

The function works by getting the transform matrix of the DOM element, and then using the matrix rotation, scale, and translate information to return the post-transform coordinates of the given node object.

  • 1
    Thank you so much this made my day, i was searching the internet for hours for a solution. – Mr. Sam May 21 '15 at 7:58
  • 1
    Hum, Could you confirm, this function still doesn't work when rotations are applied right ? Because you are not using ctm.b and ctm.c to transform the coordinates. – Overdrivr Nov 27 '15 at 9:30
  • Anyone know how to apply the rotation transforms to the getElementCoords() function? – poliu2s Apr 26 '16 at 5:03
  • 1
    @poliu2s, it looks like I have the rotation elements reversed in the previous comment. This should work: x = ctm.e + coords.x*ctm.a + coords.y*ctm.c and y = ctm.f + coords.x*ctm.b + coords.y*ctm.d. – t.888 Apr 27 '16 at 0:03
  • 2
    Thanks for adding the code for rotation transforms. Worked. – akauppi May 8 '16 at 20:40

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