Lutra Consulting had an idea of gradient colored meshes, but they didn’t reach their goal to develop it.
But the question asked by Tammo on Twitter was quite special. Tammo wanted to apply gradients on lines, and data-define the starting and ending color along a certain color ramp.
Here is my result, that I also gave on StackOverflow. It uses a hack based on interpolating points along a line and coloring them based on their position.
How to do this ?
First, set your line to geometry generator to Points
Then, apply this expression to have interpolated points along the line :
generate_series(0, length($geometry), 0.000001), -- here, we add a point every 0.000001 unit (I am in WGS84)
Here is a zoomed-in image of the line :
Finally, just set the filling color according to the position of the point along the line, and along the subsetted color ramp :
ramp_color( -- this function allows you to select one particular color along a color ramp
'Viridis', -- I ❤ Viridis
@geometry_part_num, -- @geometry_part_num is the number of the point along the line (its position)
0, @geometry_part_count, -- @geometry_part_count is the number for points along the line
"start"/10, "end"/10 -- my values are between 0 and 10, so 10/10 gives 1 (the max of the color ramp)
What if you made them meteors ?
Just set the size of each point from a min to a max :
This week-end, because of containment, I had lots of time to experiment around data and covid-19 cases, trying to figure out which graphical representation could draw the dynamics of the pandemic.
I saw a lot of graphics. The curves and their dynamics are crucial with the pandemic. Not only it is important to know what is the actual situation, but also how it was before, and how we can project ourselves to the future.
The above map is the map I made and shared on twitter :
It had quite a lot of success. It’s a mix of a line plot and a map. It gives a sense, at a single glance, of the dynamics, and looks good when animated.
After some feedback on twitter, I decied to improve the map with labels :
I only used opensource tools for it : qgis and imagemagick when animated. What’s great with opendata and open tools is that everyone can potentially integrate the data and experiment with no cost. You just have to let the ideas come, select them and find the ways to transcribe in the constrained environment of a machine : here, my computer. Somehow, the screen is my canvas painting, my mouse my brush and my keyboard my palette.
The goal of this article is to explain the method behind. It will give you a nice tutorial covering 3 qgis techniques :
the use of arrays
Some next articles could get deeper into the subject with styling.
Here’s how the covid fr dataset looks like. It is in a long format with one row by day, unlike world John Hopskins worldwide dataset which is wide (with each column being a day)
We’ll add a relation between the departements dataset and the covid dataset. We use the department code INSEE_DEPT as a key connecting the parent table (departments layer) and the child table (covid dataset). Go to Project > Properties > Relation
Next, go to the department layer and use a centroid symbol, but for this centroid symbol, you’ll use geometry generator to define the linestring.
As we want lines, choose line / polyline features :
And add this code in the expression (I’ll explain it just afterwards) :
Before constructing the linestring object, let’s consider this :
the height of the segment will be defined by the number of cases
and the spacing between nodes, simply, by the index of the node. One index = one node.
the line will start from the departement centroid
So, once we have this array of number of cases, we’ll iterate over it to get the consecutive nodes of the lines. We’ll just need the centroid coordinates, the indexes and the number of cases for each of them to build the lines
For the X coordinates of the nodes it’s this formula :
To make this the most programmatic as possible, I configured variables for the total width of the lines (@width), and the @height factor for each number of case. This way, it’s easy to change the appearance of the map
Also, I added a variable for the atlas feature id (@atlas_id) because I wanted to get the individual frames I could assemble as a GIF with ImageMagick.
For the animation, the trick consists in using an atlas and generating a series which will stop at the atlas current feature id, this one going from 0 to (n-1), n being the number of days.
So the first image will have one node (the centroid), the second one the centroid + the seconde node, the third image, the centroid + the two following nodes.
Note : why did I say 0 and (n-1) insteand of 1 and n ? It’s because the first element of an array, in qgis, is like in python : it has number 0.
Maybe later I’ll write about styling the data underneath, but now, you have the mechanism and logic behind !
There’s a github repo 😉
You struggled to follow all these steps ? Wait ! I put all the project on a github repo with all the data you’ll need and a totally reproducible map. You’ll just have to follow the steps on the github page (actually, one single click on the project after downloadgin qgis)