I'm working on a radar chart and I would like to only show the last scaleline.
I found this post which could have helped me: Chart.js (Radar Chart) different scaleLineColor for each scaleLine but unfortunately, the answer is not working anymore (the jsfiddle link doesn't display anything).
I read parts of the chart.js documentation about gridLines option, then did some tests/changes on this code: [regular radar chart][2] without any result, would anyone know how to adjust it?
Thanks!
[2]: https://codepen.io/grayghostvisuals/pen/xmBpLenter code here
Here is a solution using the latest version of chart.js (v2.5.0). It uses the scale afterTickToLabelConversion callback property to overwrite the values that were set for the scale ticks (e.g. scale lines).
Since you only want to display the last line, you have to overwrite them by keeping the first tick value (which is never displayed) and only the last tick value (the last line). If you only wanted to display some other line then you would keep the first tick and only the other line that you want displayed.
Here is my implementation.
afterTickToLabelConversion: function(scaleInstance) {
// overwrite the ticks and keep the first (never shown) and last
var oldTicks = scaleInstance.ticks;
scaleInstance.ticks = [oldTicks[0], oldTicks[oldTicks.length - 1]];
// overwrite the numerical representation of the ticks and
// keep the first (never shown) and last
var oldTicksAsNumbers = scaleInstance.ticksAsNumbers;
scaleInstance.ticksAsNumbers = [oldTicksAsNumbers[0], oldTicksAsNumbers[oldTicksAsNumbers.length - 1]];
}
Here is a codepen example that shows an original radar chart and one using the approach described above so that you can see the difference.
Related
I'm using the d3 parcoords library. When I modify data plotted in a parallel coordinates chart, and reload the chart, the scale of the axis isn't refreshed.
I tried calling .autoscale(), but if I call it before .render(), it has no effect, and if I call it after .render(), then no polylines are drawn anymore.
$("#example").html(""); //to make sure "ghost" axes are removed
parcoords = d3.parcoords()("#example")
.data(parsedData)
.createAxes()
.brushMode("1D-axes")
.reorderable()//;
.detectDimensions()
.dimensions(dimensionObj)
.autoscale() //no visible effect if placed here
.render()
.updateAxes();
Not sure if this is related (although the issue started at the same time), I started specifying an order for the dimensions. To do this, instead of using an array containing the axes (dimensionArray), I use a JS object dimensionObj containing numbered "index" keys, as follows:
//dimensionArray = ["axis1", "axis2", "axis3", "axis4"]; //orderless array
//Default axes to display with predefined ordering
dimensionObj = {
"axis1": {index:0},
"axis2": {index:1},
"axis3": {index:2},
"axis4": {index:3}
}
For illustration purposes, the following screenshots show how on the top image, the scales are properly set, but on the second (updated) chart, some new polylines are going to 0 on the 1st and 3rd axis, but the scale isn't updated so lines go out of range.
Is there a simple way to refresh the axis scales when reloading a chart? Is it possible that using the JS object in .dimensions() is creating some conflicts with the underlying scale function?
Found what was causing this behaviour: an if statement in d3.parcoords.js pc.autoscale function which was only resetting scales if the yscale was not previously defined. Essentially I edited the if statement from original:
d3.keys(__.dimensions).forEach(function(k) {
if (!__.dimensions[k].yscale){
__.dimensions[k].yscale = defaultScales[__.dimensions[k].type](k);
}
});
to this (of course the if statement could be dropped altogether, I simply kept it in this form in case I need to revert to original version later for any reason):
d3.keys(__.dimensions).forEach(function(k) {
if (!__.dimensions[k].yscale || __.dimensions[k].yscale){
__.dimensions[k].yscale = defaultScales[__.dimensions[k].type](k);
}
});
I'm creating a plugin for my chart (in ChartJS 2.2.2), and for that I need the pixel position of each point of my dataset.
When inspecting the chart.config.data.datasets[0]._meta[0], I get back the following object:
But when I access the x field directly in my plugin code, the values returned are different. The commands:
chart.config.data.datasets[0]._meta[0].dataset._children[0]._model.x and
chart.config.data.datasets[0]._meta[0].data[0]._model.x (which yields the same value when looking it up in the chrome debugger) both return x = 3 instead of 44.67.
Why is this happening? What is the proper way to access the pixel coordinate of a point in my dataset?
The plugin is called multiple times, I was debugging only the initial values for the coordinates. Turns out the last calls were made with the correct value for X (44.67). I think this was happening because initially the canvas containing the chart was hidden (using ng-hide), only after init it was being shown.
It was rendered correctly though.
I have a semi-circle donut piechart, which I have been successfully able to pass data to in runtime. Both the Legend, and the Tooltip has been working perfectly, and shown the correct data.
The tooltip has been showing both the amount, and a percentage value. The legend used to show an amount-value, but I was required to change it to percentages. I didn't expect that to be hard, but for some reason, the percentage value behaves very strangely. The first data in the series will always show the previous updated percentage. The others I can't even understand what are doing. They seem to be following a pattern of their previous value as well, but something seemingly related to the first data, seem to affect them. They do not even add up to a 100 percent.
I've been trying to figure out if there is some designated required order, or sequence to follow, when updating the series values, and the legend, but I can't figure it out. if I switch the this.percentage.toFixed(1) with this.y it works again, but then with amounts instead of percentages.
i have reproduced the error in a JSFiddle:
http://jsfiddle.net/kuF3q/
For this example, I have used the Math.random() to simulate new data, like this:
chart.series[0].data[0].update(Math.random());
chart.series[0].data[1].update(Math.random());
chart.series[0].data[2].update(Math.random());
chart.series[0].data[3].update(Math.random());
chart.series[0].data[4].update(Math.random());
chart.series[0].data[5].update(Math.random());
chart.series[0].data[6].update(Math.random());
Note the difference between the tooltip-values, and the legend values. Any ideas on what I am doing wrong?
I'm not sure why your example is going wrong, but you can get it working by using chart.series.setData like this:
function newData(){
var newData = [Math.random(),Math.random(),Math.random(),Math.random(),Math.random(),Math.random(),Math.random()];
chart.series[0].setData(newData);
}
http://jsfiddle.net/QwLR7/
Note, setData redraws the chart by default. http://api.highcharts.com/highcharts#Series.setData.
Here is your newData function :
function newData(){
chart.series[0].setData ( [3, 2, 4, 6, 12, 6, 5]);
chart.redraw(true);
}
Here is a JsFiddle : http://jsfiddle.net/S5q53/
With random value : http://jsfiddle.net/S5q53/1/
Every example I have found shows all of the scatter plot points to be of random radii. Is it possible to have them all the same size? If I try to statically set the radius all of the circles will be very small (I'm assuming the default radius). However, if I use Math.random() as in most examples there are circles large and small. I want all the circles to be large. Is there a way to do that? Here's the code snippet forming the graph data using Math.random() (this works fine for some reason):
function scatterData(xData, yData)
{
var data = [];
for (var i = 0; i < seismoNames.length; i++)
{
data.push({
key: seismoNames[i],
values: []
});
var xVals=""+xData[i];
xVals=xVals.split(",");
var yVals=""+yData[i];
yVals=yVals.split(",");
for (var j = 0; j < xVals.length; j++)
{
data[i].values.push({
x: xVals[j],
y: yVals[j],
size: Math.random()
});
}
}
return data;
}
Math.random() spits out values between 0 and 1 such as 0.164259538891095 and 0.9842195005008699. I have tried putting these as static values in the 'size' attribute, but no matter what the circles are always really small. Is there something I'm missing?
Update: The NVD3 API has changed, and now uses pointSize, pointSizeDomain, etc. instead of just size. The rest of the logic for exploring the current API without complete documentation still applies.
For NVD3 charts, the idea is that all adjustments you make can be done by calling methods on the chart function itself (or its public components) before calling that function to draw the chart in a specific container element.
For example, in the example you linked too, the chart function was initialized like this:
var chart = nv.models.scatterChart()
.showDistX(true)
.showDistY(true)
.color(d3.scale.category10().range());
chart.xAxis.tickFormat(d3.format('.02f'));
chart.yAxis.tickFormat(d3.format('.02f'));
The .showDistX() and .showDistY() turn on the tick-mark distribution in the axes; .color() sets the series of colours you want to use for the different categories. The next too lines access the default axis objects within the chart and set the number format to be a two-digit decimal. You can play around with these options by clicking on the scatterplot option from the "Live Code" page.
Unfortunately, the makers of the NVD3 charts don't have a complete documentation available yet describing all the other options you can set for each chart. However, you can use the javascript itself to let you find out what methods are available.
Inspecting a NVD3.js chart object to determine options
Open up a web page that loads the d3 and nvd3 library. The live code page on their website works fine. Then open up your developer's console command line (this will depend on your browser, search your help pages if you don't know how yet). Now, create a new nvd3 scatter chart function in memory:
var testChart = nv.models.scatterChart();
On my (Chrome) console, the console will then print out the entire contents of the function you just created. It is interesting, but very long and difficult to interpret at a glance. And most of the code is encapsulated so you can't change it easily. You want to know which properties you can change. So run this code in the next line of your console:
for (keyname in testChart){console.log(keyname + " (" + typeof(testChart[keyname]) + ")");}
The console should now print out neatly the names of all the methods and objects that you can access from that chart function. Some of these will have their own methods and objects you can access; discover what they are by running the same routine, but replacing the testChart with testChart.propertyName, like this:
for (keyname in testChart.xAxis){console.log(keyname + " (" + typeof(testChart.xAxis[keyname]) + ")");}
Back to your problem. The little routine I suggested above doesn't sort the property names in any order, but skimming through the list you should see three options that relate to size (which was the data variable that the examples were using to set radius)
size (function)
sizeDomain (function)
sizeRange (function)
Domain and range are terms used by D3 scales, so that gives me a hint about what they do. Since you don't want to scale the dots, let's start by looking at just the size property. If you type the following in the console:
testChart.size
It should print back the code for that function. It's not terribly informative for what we're interested in, but it does show me that NVD3 follows D3's getter/setter format: if you call .property(value) you set the property to that value, but if you call .property() without any parameters, it will return back the current value of that property.
So to find out what the size property is by default, call the size() method with no parameters:
testChart.size()
It should print out function (d) { return d.size || 1}, which tells us that the default value is a function that looks for a size property in the data, and if it doesn't exist returns the constant 1. More generally, it tells us that the value set by the size method determines how the chart gets the size value from the data. The default should give a constant size if your data has no d.size property, but for good measure you should call chart.size(1); in your initialization code to tell the chart function not to bother trying to determine size from the data and just use a constant value.
Going back to the live code scatterplot can test that out. Edit the code to add in the size call, like this:
var chart = nv.models.scatterChart()
.showDistX(true)
.showDistY(true)
.color(d3.scale.category10().range())
.size(1);
chart.xAxis.tickFormat(d3.format('.02f'));
chart.yAxis.tickFormat(d3.format('.02f'));
Adding that extra call successfully sets all the dots to the same size -- but that size is definitely not 1 pixel, so clearly there is some scaling going on.
First guess for getting bigger dots would be to change chart.size(1) to chart.size(100). Nothing changes, however. The default scale is clearly calculating it's domain based on the data and then outputting to a standard range of sizes. This is why you couldn't get big circles by setting the size value of every data element to 0.99, even if that would create a big circle when some of the data was 0.01 and some was 0.99. Clearly, if you want to change the output size, you're going to have to set the .sizeRange() property on the chart, too.
Calling testChart.sizeRange() in the console to find out the default isn't very informative: the default value is null (nonexistent). So I just made a guess that, same as the D3 linear scale .range() function, the expected input is a two-element array consisting of the max and min values. Since we want a constant, the max and min will be the same. So in the live code I change:
.size(1);
to
.size(1).sizeRange([50,50]);
Now something's happening! But the dots are still pretty small: definitely not 50 pixels in radius, it looks closer to 50 square pixels in area. Having size computed based on the area makes sense when sizing from the data, but that means that to set a constant size you'll need to figure out the approximate area you want: values up to 200 look alright on the example, but the value you choose will depend on the size of your graph and how close your data points are to each other.
--ABR
P.S. I added the NVD3.js tag to your question; be sure to use it as your main tag in the future when asking questions about the NVD3 chart functions.
The radius is measured in pixels. If you set it to a value less than one, yes, you will have a very small circle. Most of the examples that use random numbers also use a scaling factor.
If you want all the circles to have a constant radius you don't need to set the value in the data, just set it when you add the radius attribute.
Not sure which tutorials you were looking at, but start here: https://github.com/mbostock/d3/wiki/Tutorials
The example "Three little circles" does a good step-by-step of the different things you can do with circles:
http://mbostock.github.io/d3/tutorial/circle.html
I just started using nvd3 a short while ago and am now facing a big problem for me with multibar charts:
My xAxis data has gaps in between, e.g. [1,2,3,4,9,24,120].
I want these gaps to be displayed in the graph, but nvd3 just displays all bars next to each other, so, that the distance between the bars with the x value 2 and 3 is the same as between those with 9 and 24.
Is there any way to change this, so that you can see all the gaps in the data?
The code I used is just the same as nvd3s example code.
Thank you very much.
Sure there is. You will fill in 0 for all the missing values. For each y that will correspond to a missing value you will set x = 0. That's all you need to do (it's not as simple as it sounds since there can be cases with series which have no data and so on, but this is the main trick).