# How do I adjust zoom size for a point in D3?

This could be a classic case of "you're doing it wrong", but all of my searching to date hasn't warranted any help.

Here's my scenario:

I'm using an albersUSA map projection in conjunction with the national and county GeoJson files to draw everything.

I also have a self created "cities" file that contains major cities for each state. The coordinates are accurate and everything looks good.

When a user clicks on a given state, I hide all state shapes and then calculate the transform needed to get the county shapes for that state to fit within my viewport. I then apply that transform to all the necessary county shapes in order to get the "zoomed" view. My code is as follows:

``````function CalculateTransform(objectPath)
{
var results = '';

// Define bounds/points of viewport
var mapDimensions = getMapViewportDimensions();
var baseWidth = mapDimensions[0];
var baseHeight = mapDimensions[1];

var centerX = baseWidth / 2;
var centerY = baseHeight / 2;

// Get bounding box of object path and calculate centroid and zoom factor
// based on viewport.
var bbox = objectPath.getBBox();
var centroid = [bbox.x + bbox.width / 2, bbox.y + bbox.height / 2];
var zoomScaleFactor = baseHeight / bbox.height;
var zoomX = -centroid[0];
var zoomY = -centroid[1];

// If the width of the state is greater than the height, scale by
// that property instead so that state will still fit in viewport.
if (bbox.width > bbox.height) {
zoomScaleFactor = baseHeight / bbox.width;
}

// Calculate how far to move the object path from it's current position to
// the center of the viewport.
var augmentX = -(centroid[0] - centerX);
var augmentY = -(centroid[1] - centerY);

// Our transform logic consists of:
// 1. Move the state to the center of the screen.
// 2. Move the state based on our anticipated scale.
// 3. Scale the state.
// 4. Move the state back to accomodate for the scaling.
var transform = "translate(" + (augmentX) + "," + (augmentY) + ")" +
"translate(" + (-zoomX) + "," + (-zoomY) + ")" +
"scale(" + zoomScaleFactor + ")" +
"translate(" + (zoomX) + "," + (zoomY) + ")";

return results;
}
``````

...and the binding function

``````// Load county data for the state specified.
d3.json(jsonUrl, function (json) {
if (json === undefined || json == null || json.features.length == 0)
{
logging.error("Failed to retrieve county structure data.");
showMapErrorMessage("Unable to retrieve county structure data.");
return false;
}
else
{
counties.selectAll("path")
.data(json.features)
.enter()
.append("path")
.attr("id", function (d, i) {
return "county_" + d.properties.GEO_ID
})
.attr("data-id", function (d, i) { return d.properties.GEO_ID })
.attr("data-name", function (d, i) { return countyLookup[d.properties.GEO_ID] })
.attr("data-stateid", function (d, i) { return d.properties.STATE })
.attr("d", path);

// Show all counties for state specified and apply zoom transform.
d3.selectAll(countySelector).attr("visibility", "visible");
d3.selectAll(countySelector).attr("transform", stateTransform);

// Show all cities for the state specified and apply zoom transform
d3.selectAll(citySelector).attr("visibility", "visible");
d3.selectAll(citySelector).attr("transform", stateTransform);
}
});
``````

This works fine here, except for really small states, the zoom factor is much larger, and the circles get distored.

Is there a way to force the size of the points to be a fixed size (say a 15px radius) even after the transform occurs?

-

This is happening because you are setting a scale transform instead of scaling the positions. You can see the difference here Basically it is the difference between:

``````// Thick lines because they are scaled too
var bottom = svg.append('g').attr('transform', 'scale('+scale+','+scale+')');
bottom.selectAll('circle')
.data(data)
.enter().append('circle')
.attr('cx', function(d) { return d.x; })
.attr('cy', function(d) { return d.y; });
``````

and

``````// line thicknesses are nice and thin
var top = svg.append('g');
top.selectAll('circle')
.data(data)
.enter().append('circle')
.attr('cx', function(d) { return d.x * scale; })
.attr('cy', function(d) { return d.y * scale; });
``````

With mapping probably you best solution is to compute your offset and scale as you do and then add them into your projection function - you want to directly modify the post-projection x and y values. If you update your projection function properly you should not have to do anything else to apply the appropriate zoom to your map.

-
This make sense! I'll take a peek at the fiddle you provided and get it to work for my solution. –  Dillie-O Feb 28 '13 at 19:04

For the attributes you don't want to scale, just make them divided by 'scale' . In my case,

``````var zoom = d3.behavior.zoom()
.on("zoom",function() {
g.attr("transform","translate("+d3.event.translate.join(",")+")scale("+d3.event.scale+")");

g.selectAll(".mapmarker")
.attr("r",6/d3.event.scale)
.attr("stroke-width",1/d3.event.scale);

});
``````
-