Link to sample image with tilting graph:
Link to NVD3 Streamgraph page:
The nvd3 streamgraph will descend or ascend sharply over time. I searched SO and the NVD3 documentation but didn't find a variable that controls where the zero of the y axis is at each point in time. Nor have I found discussions of this. In other words what makes the whole graph tilt in one direction or the other and how to control or turnoff this tilt.
I read a bit of the initial paper on streamgraphs by Byron but couldn't figure it out and thought I'd ask here.
Could someone please point me towards documentation on this or otherwise provide insight?
The NVD3 code for the stacked area chart accepts four possibilities for the chart style: stack, stream, stream-center, and expand. The default stream graph is the "stream" style, and this is the version that gets off-centre if you have any zero values in your data.
If you set the style explicitly to "stream-center", the chart behaves as expected. However, the radio buttons that switch between display styles switch back to the problematic algorithm, so they will need to be disabled.
chart.style('stream-center')
.showControls(false);
It's possible that the existence of this other display algorithm means that the NVD3 folks are working on it. The github issue page might be a good place to look for updates or responses from them:
https://github.com/novus/nvd3/issues/416
Related
Source of image : https://math.stackexchange.com/questions/144268/is-there-a-name-for-this-type-of-plot-function-on-complex-plane-vs-time-shown
I had in one of my lectures a graph of how sin, cos and exp are related in complex domain with a figure that close to that one. I searched on-line a lot until I found that picture on Math.SE.
As per my search I found that it is only PTC mathcad that is stating it is possible to draw complex domain graphs but couldn't find any information related in mathcad manual or even in books including such graphs. Did any one managed to have such graphs drawn before. I would appreciate it as it will help me imagine graphically the circulation of complex numbers and the changes in formulas.
Can any one help?
In Mathcad, use CreateSpace with the appropriate functions of time. You'll have to open the plot dialog box to set the various axis and backplane options. You'll also need to ensure that each of the 3 plot elements is set to Data Points rather than Surface (the default display for the 3D plot component).
I typed the plot's expressions for exp, sin and cos elsewhere in the worksheet and then dragged them onto the plot.
I'm working with a lot of rank data that would benefit from a way to simultaneously display its respective year on the x-axis. For example, I want to create the following graph adapted from the dygraph gallery:
Note how the rank information (red arrow) for a particular weekend (green arrow) are both displayed on the x axis.
I know this might not be possible with dygraphs now, at least it wasn't available in these demos, so I guess my follow up question would be are there any plans to make this possible (how about in the [r] {dygraph} package)? Apparently a plotter called flot can do this.
UPDATE 1
If indeed this feature does not exist yet, then the following, although potentially obvious to Dygraph developers, is a thought for accomplishing the task easily (perhaps I'm wrong). At first I thought it would be necessary to provide input data of the form shown in Table A
However such input is a major deviation from the existing Dygraph parser model who expects one abscissa. Such suggests that a modification to the parser to accept a "Dual Label" option, requiring that both labels be contained in a single abscissa element as in Table B, would be easier. Thereafter, with the option specified, the parser would manage CSV as it usually would with the exception that it is now "bin cognizant" and detects division between labels 1 and 2 by use of an acceptable delimiter (in this case a single quotation mark - maybe not the best choice) and divisions between label 1 abscissa elements by name change. Behind the scenes each point gets its unique x coordinate and the "Dual Label" option causes the dygraph to visually scoot up a couple pixels to accommodate an extra label. Not sure how to handle full zoomed scrolling put simply leaving a label 1 element centered until an adjacent label 1 element comes on screen is an option.
Dygraphs rule!
There's no simple way to do this with dygraphs now. As you say, there's a fairly deep assumption that there's only a single x-axis.
Your best bet would be to either modify the existing legend plugin to do this, or to create a new plugin which renders just the "Weekend 1", "Weekend 2" line. While the plugins API isn't official yet, it is at least somewhat documented.
If you get this to work, please share your code!
I know it is possible to create such double pie charts in excel like this:
http://chandoo.org/wp/2009/12/02/group-small-slices-in-pie-charts/
but can SPSS or R do this also?
In relation to R:
The answer to the title question is "yes" ... see ?pie
As for the second question, the one in the body - it would be possible but would involve some coding. You'd have to draw two pie charts side by side (which could be managed with two calls to pie) and use segments or arrows (and text if necessary) to do the additional components of the plot.
Here's a rough example:
That required the fig argument of par to get them side-by-side.
(That example required a little fiddling to get right, but it would be possible to write a function to automate the details.)
The main issue I can see would be 'why on earth would you do it?' -- pie charts are a poor way of conveying information of this form. There are alternatives that result in much better ability to distinguish values, and less bias (such as what you get when comparing nearly horizontal vs nearly vertical slices).
I know it is possible to create such double pie charts in excel like this:
http://chandoo.org/wp/2009/12/02/group-small-slices-in-pie-charts/
but can SPSS or R do this also?
In relation to R:
The answer to the title question is "yes" ... see ?pie
As for the second question, the one in the body - it would be possible but would involve some coding. You'd have to draw two pie charts side by side (which could be managed with two calls to pie) and use segments or arrows (and text if necessary) to do the additional components of the plot.
Here's a rough example:
That required the fig argument of par to get them side-by-side.
(That example required a little fiddling to get right, but it would be possible to write a function to automate the details.)
The main issue I can see would be 'why on earth would you do it?' -- pie charts are a poor way of conveying information of this form. There are alternatives that result in much better ability to distinguish values, and less bias (such as what you get when comparing nearly horizontal vs nearly vertical slices).
I'm getting familiar with Graphviz and wonder if it's doable to generate a diagram/graph like the one below (not sure what you call it). If not, does anyone know what's a good open source framework that does it? (pref, C++, Java or Python).
According to Many Eyes, this is a bubble chart. They say:
It is especially useful for data sets with dozens to hundreds of values, or with values that differ by several orders of magnitude.
...
To see the exact value of a circle on the chart, move your mouse over it. If you are charting more than one dimension, use the menu to choose which dimension to show. If your data set has multiple numeric columns, you can choose which column to base the circle sizes on by using the menu at the bottom of the chart.
Thus, any presentation with a lot of bubbles in it (especially with many small bubbles) would have to be dynamic to respond to the mouse.
My usual practice with bubble charts is to show three or four variables (x, y and another variable through the size of the bubble, and perhaps another variable with the color or shading of the bubble). With animation, you can show development over time too - see GapMinder. FlowingData provides a good example with a tutorial on how to make static bubble charts in R.
In the example shown in the question, though, the bubbles appear to be located somewhat to have similar companies close together. Even then, the exact design criteria are unclear to me. For example, I'd have expected Volkswagen to be closer to General Motors than Pfizer is (if some measure of company similarity is used to place the bubbles), but that isn't so in this diagram.
You could use Graphviz to produce a static version of a bubble chart, but there would be quite a lot of work involved to do so. You would have to preprocess the data to calculate a similarity matrix, obtain edge weights from that matrix, assign colours and sizes to each bubble and then have the preprocessing script write the Graphviz file with all edges hidden and run the Graphviz file through neato to draw it.