Suppose that I want to update a plot with a new data. What method should I choose?
- Set the
XDataSource
property to some name, update the variable, and callrefreshdata
- Erase the original
plot
, and callplot
command again. - Use
Set('Xdata',...')
Suppose that I want to update a plot with a new data. What method should I choose?
XDataSource
property to some name, update the variable, and call refreshdata
plot
, and call plot
command again.Set('Xdata',...')
Short answer : always use Set('Xdata',...')
.
Example code:
function PlotUpdate()
x = 0:.1:8;
y = sin(x);
h = plot(x,y);
y = sin(x.^3);
set(h,'XData',x,'YData',y);
end
Long answer:
There are three relevant measures by which one should choose the best method.
Now, let's analyze the possible methods.
Method(1) - refreshdata
function PlotUpdate()
x = 0:.1:8;
y = sin(x);
h = plot(x,y);
set(h,'YDataSource','y')
set(h,'XDataSource','x')
y = sin(x.^3);
refreshdata(h,'caller');
end
M-lint immediately issues a warning in the line y=sin(x.^3)
The value assigned to variable `y` might be unused
Why does it happen? refreshdata
uses eval
and m-lint
cannot know that you will use y
. Someone reading your code, might as well remove this line completely. This happened because you broke the encapsulation principle. refreshdata
accesses variables from the caller workspace. Another way to take a look at this, suppose that you pass the handle of the plot to another function. The reader has no clue to why on earth you wrote y = sin(x.^3);
, and how is it going to be related to the update of the plot.
Now let's discuss speed/runtime. By taking a look at refreshdata
source code, you will notice two ugly for-loops, that go through all of the graphics handles variables in your space. Here is the first:
% gather up all the objects to refresh
objs = {};
for k = 1:length(h)
obj = h(k);
objfields = fields(obj);
for k2 = 1:length(objfields)
% search for properties ending in DataSource
if strncmpi(fliplr(objfields{k2}),'ecruoSataD',10)
objs = {objs{:},obj, objfields{k2}};
end
end
end
Imagine that you have not one plot, but 100 plot and you want to update only the first. This will be very slow, because for each of the plots, you attempt to find the one you need! (I am leaving as an exercise for the reader to figure out what is ecruoSataD
, and how it is used.)
Even if you give the relevant plot as an argument, you still have the second loop, that runs eval
several times. Not exactly efficient. I will show a time comparison in the end.
Conclusion : Hard to understand, hard to refactor, slow runtime
Method (2) - Delete and re-plot
function PlotUpdate()
x = 0:.1:8;
y = sin(x);
h = plot(x,y);
set(h,'YDataSource','y')
set(h,'XDataSource','x')
y = sin(x.^3);
delete(h);
h = plot(x,y);
end
This method is quite clear for the reader. You deleted the plot, and drew a new one. However, as we will see from the time comparison in the end, that is the slowest method.
Conclusion : Easy to understand, easy to refactor, very slow runtime
Method(3) - set('XData',...,'YData')
The code is really clear. You want to modify a two properties of your plot, XData
and YData
. And that is exactly what you do. Also, the code runs really fast, as you can see from the comparison below.
function PlotUpdate()
x = 0:.1:8;
y = sin(x);
h = plot(x,y);
y = sin(x.^3);
set(h,'XData',x,'YData',y);
end
Since the new graphics engine hg2 (R2014b and up), you can also use property syntax for specifying data if you prefer that notation:
function PlotUpdate()
x = 0:.1:8;
y = sin(x);
h = plot(x,y);
y = sin(x.^3);
h.XData = x;
h.YData = y;
end
Conclusion : Easy to understand, easy to refactor, fast runtime
Here is the time comparison code
function PlotUpdateTimeCompare()
x = 0:.1:8;
y = sin(x);
h = plot(x,y);
set(h,'YDataSource','y')
set(h,'XDataSource','x')
y = sin(x.^3);
tic
for i=1:100
refreshdata(h,'caller');
end
toc
tic
for i=1:100
delete(h);
h = plot(x,y);
end
toc
tic
for i=1:100
set(h,'XData',x,'YData',y);
end
toc
end
And the results:
Elapsed time is 0.075515 seconds.
Elapsed time is 0.179954 seconds.
Elapsed time is 0.002820 seconds.
set(h,'XDataSource',x)
, I think a copy-paste typo. The first code snippet does not have those. Otherwise, I see your point. Although on the other hand, if you have 100 plots that you want to refresh, calling refreshdata
is one line, while calling set(h, ...)
100 times after you recalculate the input data can be a bit tedious.
set('XData')
is easier than refreshdata
when you want to edit the data inside a callback. The only thing you need to hunt (or cache with persistent
) is the graphic handle. I was having trouble trying to auto-link stuff, and after switching to XData is super smooth.
h.XData = x; h.YData = y;
is actually 33% faster on my machine, than the equivalent set(h,'XData',x,'YData',y);
. I've tested in your script, setting i=1:1000 gives a total time of 0.058861 seconds vs 0.088543 seconds.
Dec 3, 2019 at 6:08
You can call the function drawnow
and do something like that :
h = plot(nan);
for i = 1:n
y = ...
set(h,'YData',y);
drawnow %update the graph
end
Suppose that I want to update a plot with a new data. What method should I choose?
If you have more than one line object in the given axes then Method:
- Set the XDataSource property to some name, update the variable, and call
refreshdata
will generate an error in MATLAB R2012b. An appropriate example is provided in Andrey's answer.
A bug has been submitted to the Mathworks.