Difference between integral and cumtrapz.

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Aram Zeytunyan
Aram Zeytunyan on 27 Jul 2025
Commented: Star Strider on 29 Jul 2025
Ran in:
I have a tempral data series, which I need to integrate. In order to understand how Matlab does that, I start with a parabola as the data series. Could you guys please explain me why I get completely different results using the integral and cumtrapz funtions? The cumtrapz is giving me a cubic function, but I have no idea why it is only positive and I also do not understand the limits. My understanding is that the answer should be simple: intfx = x^3/3...
x = [-10:0.01:10]';
fx = x.^2;
% intfx = integral(@(x) fx, x(1), x(end), 'ArrayValued', true);
intfx = cumtrapz(fx,x);
plot(x,fx,'b')
hold on
plot(x,intfx,'r')

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Accepted Answer

Star Strider
Star Strider on 27 Jul 2025
Ran in:
They produce the same result if you let them.
Try something like this --
x = [-10:0.01:10]';
fx = @(x) x.^2;
for k = 1:numel(x)
intfx_int(k) = integral(fx, x(1), x(k), 'ArrayValued', true);
end
intfx_ctz = cumtrapz(x,fx(x));
figure
tiledlayout(2,1)
nexttile
plot(x,fx(x),'b')
hold on
plot(x,intfx_ctz,'r')
hold off
nexttile
plot(x,fx(x),'b')
hold on
plot(x,intfx_int,'r')
hold off
Your original code will produce a single value for 'intfx' (that I use as 'intfx_int') since you give it two integration limits, so it will integrate between them to produce a single result that is the integral of the function between those limits:
intfx = integral(@(x)x.^2, x(1), x(end), 'ArrayValued', true)
intfx = 666.6667
Here, I gave it varying limits of integration in the loop.
.
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Aram Zeytunyan
Aram Zeytunyan on 29 Jul 2025
The second integral is a constant, there is no x in it. If we believe that equation 3 is correct, there is no need to write a long line for the denominator in the equation, it's not going to change the shape. Thanks again for your help. I now know that cumtrapz is the right/only way to calculate the integral.
Star Strider
Star Strider on 29 Jul 2025
As always, my pleasure!
It doesn't look like a constant to me since it integrates over ν (and it multiplies as the inverse, so essentially the first integral is divided by it), however I don't understand either the physics or the variable definitions, so I'll defer to you.

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More Answers (2)

Walter Roberson
Walter Roberson on 27 Jul 2025
integral() takes a function handle and does an adaptive quadrature numeric integration of the given function. The adaptive quadrature is exact for polynomials up to roughly degree 32767 if I read the source code correctly. For non-polynomials, the accuracy will depend on how close the approximating polynomial gets to the actual function.
cumtrapz() uses trapezoid numeric approximation, which is only accurate for polynomials up to (I think) degree 4 that are sampled often enough.
So, cumtrapz() will be less precise than integral() for all but very low degree polynomials.
The sample function you are integrating is a very low degree polynomial so the results should be the same to within numeric round-off.
Torsten
Torsten on 27 Jul 2025
Edited: Torsten on 27 Jul 2025
Your input arguments to "cumtrapz" are reversed: you have to use
intfx = cumtrapz(x,fx);
instead of
intfx = cumtrapz(fx,x);
And the answer with "cumtrapz" as well as with "integral" will be x^3/3 - (-10)^3/3 because both start with 0 at x = -10.
  2 Comments
Star Strider
Star Strider on 27 Jul 2025
I reversed them o be correct inmy answer. I did not mention the change.
John D'Errico
John D'Errico on 27 Jul 2025
Edited: John D'Errico on 27 Jul 2025
Ran in:
This has always bothered me about trapz and cumtrapz. That is, if you call them with one argument, it is assumed to be y, and the stride in x is assumed to be 1. So we can do this:
x = 1:10;
y = x.^3 - x + 1;;
cumtrapz(y)
ans = 1×10
0 4 20 63 154 320 594 1015 1628 2484
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<mw-icon class=""></mw-icon>
Now, if I add additional information such as a non-unit stride between the x values, then logically it should be with a second argument, which if not supplied, has a default value. So I would expect this to be the case, if I want to tell cumtrapz both the vectors x and y.
cumtrapz(y,x)
ans = 1×10
0 9 54 180 450 945 1764 3024 4860 7425
<mw-icon class=""></mw-icon>
<mw-icon class=""></mw-icon>
cumtrapz(x,y)
ans = 1×10
0 4 20 63 154 320 594 1015 1628 2484
<mw-icon class=""></mw-icon>
<mw-icon class=""></mw-icon>
And of course, the first argument must be x, not f(x), when called with two arguments. So the first call I madethere failed. And if we just want to tell MATLAB the stride alone, again you need to use this form
cumtrapz(1,y)
ans = 1×10
0 4 20 63 154 320 594 1015 1628 2484
<mw-icon class=""></mw-icon>
<mw-icon class=""></mw-icon>
which works perfectly.
While I know and remember this behavior of cumtrapz and trapz, these tools run counter to our expectations of how the code SHOULD have been written. Well, at least to MY expectations. And given the number of times new and even highly experiencedd users have tripped over this quirk, it is more than just me.
And, yes, I know this is something that could never be fixed, due to the amount of legacy code that relies on tools like trapz and cumtrapz. But it still frustrates me every time I need to use them, because it forces me to waste brain sweat. :)
set(0,'RantMode','off')

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