Matlab provides a powerful plotting interface. Unfortunately, the default settings do not produce the most visually appealing figures. Unlike other popular plotting libraries (ggplot2, matplotlib, highcharts, Plotly, etc.), Matlab has no simple method for changing the overall appearance of a plot. One option is to use a platform such as Plotly within Matlab (more details here). In this article I discuss how you can improve the appearance of the native plotting architecture within Matlab to give your figures a more professional, refined look
As a motivational example, both plots in Figure 1 were created with Matlab. The plot on the left uses the default plotting parameters, whereas the plot on the right has been adjusted as will be discussed in Example 1.
Before I jump into how you can improve the appearance of a plot within a Matlab script, there is one quick and easy alternative. The Matlab plot tools interface can be accessed by the button at the far right of the toolbar in a figure window (see Figure 2). This will open a window that allows quick interactive customization of a figure (see Figure 3). One feature that makes this interface especially powerful is the ability to export the adjustments you have made to a script. Under File > Generate Code… you can export a Matlab script with the exact settings needed to reproduce the changes you make to your figure within the plot tools interface.
Although the plot tools interface works well, my personal preferences is to keep everything contained within a Matlab script such that when I return to a project weeks or months later, my plotting setup has not changed.
I begin with an in-depth example of how to transform the plot in the left panel of Figure 1 into that in the right panel.
The properties in Matlab that affect the appearance of a figure are broken into two categories: axes properties and figure properties. Within Matlab, the gca and gcf commands are used to adjust axes and figure properties respectively. Axes properties affect the appearance of elements such as the title, axis labels, tick marks, grid lines etc. A full list of the properties that can be adjusted can be found in the Matlab axes properties documentation. Figure properties control the appearance of the window. This is where you adjust settings such as the background color, figure window size, position of the plot, etc. Again, the Matlab figure properties documentation provides a full list of the properties that can be adjusted.
Adjusting the Plot Properties
The first step in reproducing the plot in the right panel of Figure 1 is to create our base plot. This is a plot of the functions and for with no changes to the appearance settings.
At this point our plot will look the same as the left panel of Figure 1. Before adjusting the axes and figure properties, we will work on the appearance of each function changing the line-width and color properties. To keep our code clean, it is best to separate the plotting of each function into different calls to the plot function, using the hold on command so both functions appear on the same figure.
We are now able to adjust the line-width and colors of each curve. There are three ways this can be done. The first applies the properties directly within the plot function. The second and third store each plot in a variable, and adjust the properties of that plot variable.
All three methods produce the same results, the second and third can be easier to manage if you are adjusting a lot of properties for each plot. A full list of the properties for lines (the functions) can be found in Matlab's documentation here. In the remainder of this article I will be using the third method to adjust settings.
One thing I always like to adjust is the colors of lines or points in a figure. Using the Color property and a list of 3 rgb values between 0 and 1, you can adjust the color of each line or set of points individually. If you have difficulty deciding on colors that work well together, there are some great tools out there with pre-defined color schemes: https://color.adobe.com/explore/most-popular/?time=all. Figure 4 shows what the plot looks like after adjusting the line-widths and colors.
The axes properties are where most of the styling happens. The gca variable allows control of the axes properties. Unfortunately, any properties we adjust this way will only apply to the current figure. To set global properties, an under-documented feature in Matlab must be used. For more details, see my Default Plot Settings in Matlab post.
The first thing we will adjust is the limits of our plot. The axes function in Matlab can be used to do this but, as an alternative, you can set the limits using the XLim and YLim properties. We will need access to the gca variable, this can be done by assigning it to a variable ax = gca; and working with the ax variable. As with plot properties, we can set the axes properties by either using the set function such as set(ax, 'XLim', [0, 12*pi]); or by directly changing the ax variable as ax.XLim = [0, 12*pi];, I use the latter. At this point our Matlab script for plotting our functions looks like this:
The next thing we may want to adjust is the appearance of the ticks along the and axes. Since we are plotting trigonometric functions, we will label the -axis in intervals of .
Notice that a property called TickLabelInterpreter has been set to LaTeX. This will ensure that the tick labels are rendered using LaTeX so we get nice looking symbols. To render all the text (titles, axes labels, axes tick labels, etc.) within a plot with LaTeX a few properties must be set.
Since the title is now being rendered using LaTeX, inline equations can be included by surrounding them with dollar symbols.
There are a few more axes properties that I like to adjust. First, I prefer not to have the plot surrounded with a box, this can be turned off using ax.Box = 'off'. Next, the width of the axis lines can be increased to make them more visible using ax.LineWidth = 1.5.
The figure properties can be extremely powerful especially if you want to remain consistent in your styling, or want control over the font size of a plot. This can be especially useful if you are including your plot in a LaTeX document and want the font-size of the labels and title to match the font-size used in your LaTeX document. These properties will not affect the appearance of the plot itself, but will allow control over the size of the plotting window so you can be comfortable knowing all your plots are the same dimension.
We will begin by adjusting the paper size for our plots. To gain access to the figure properties we will assign figure() to a variable. Here I have set the size of the plot to inches (I used 3.09 so the aspect ratio of the plot is the golden ratio). The FigPosition property will add margins around the plot so the title and axis labels do not get cut off.
InvertHardcopy controls the appearance of the plot when you save it. By setting this to 'off', Matlab will not make any changes to the appearance of the saved file.
Putting It All Together
Here is the final script used for creating the plot in the right panel of Figure 1:
The following Matlab script was used to produce Figure 2.
The following Matlab script was used to produce Figure 6. The flu dataset is one of several sample datasets in Matlab. It contains the flu infection rates in several regions of the US between Oct. 2005 and Oct. 2006.
Some notes about the code below:
- ax.ColorOrder = colors; sets the default colors to use for each line that is plotted
- ax.XColor = 'white'; and ax.YColor = 'white'; controls the color of the and axes. Here I used 'white' as the color instead of a vector of rgb values. white is one of the built-in colormaps in Matlab.
- In Matlab everything is a matrix, this means you can create a matrix (a matrix in this case) of line plots. This can help simplify your scripts when you have several plots and you wish to change the properties (such as linewidth) of all of them at once. Note that I used the set function here. This doesn't work by directly accessing the plot variable.
- A legend has been added to this plot, and like the properties explored earlier, there are a number of properties specific to a legend that can be modified. A full list can be found here.
- Just as adding a legend, a title has several properties that affect its appearance, see Matlab's documentation for more details.
The adjustments I have described here are useful when you plan on presenting a figure, whether it is in a paper, on a poster or in a presentation. Hopefully in the future Matlab will introduce an easy way to quickly adjust the appearance of a figure (or maybe I will take this on as a future project). If you have any more tips or tricks for improving the appearance of a Matlab figure, make sure to leave a comment below.
A few articles have come out covering some ways to improve the appearance of a graph: