I guess you have some way to match up each Y-value to its corresponding X-value. By generating a vector of the same length as Y with these X-values they can then be plotted against each other.

The two vectors will then have the following form:

```
X = [2,6,2,10,6,6,10,2,....6]
Y = [0.5,0.4,0.2,0.2,0.9,0.3....0.5]
```

Here is a sample code

```
% X-data
X = [2,6,10];
% Generate random Y-data
n1 = 10;
n2 = 20;
n3 = 30;
n = n1 + n2 + n3;
Y = rand(1,n);
% Match X indices corresponding to Y
% Xall = [2,2,2,...,2,6,6,6,...,6,10,10,10,...,10]
X1 = zeros(1,n1);
X1(:) = X(1);
X2 = zeros(1,n2);
X2(:) = X(2);
X3 = zeros(1,n3);
X3(:) = X(3);
Xall = [X1 X2 X3];
plot(Xall,Y,'o')
xlim([min(X)-2,max(X)+2])
```

which will generate a figure of the following form