Keep in mind that `sample(x,y)`

means that sample is true at `x+i*y`

where `i`

starts at zero. Which is to say that `sample(0, ...)`

becomes true at `time=0`

.

Since `j`

starts at 1 and `k`

is presumably more than 1, it doesn't seem unexpected to me that `sample(0, delta_t) and j<k`

should become true at the start of the simulation.

I suspect what you want is:

```
class abc
import Modelica.SIunits;
parameter SIunits.Time delta_t=0.5;
constant Real a[:]={4,2,6,-1,3,5,7,4,-3,-6};
Real x;
Integer j(start=1);
Integer k=size(a, 1);
algorithm
when {(sample(delta_t, delta_t) and j < k),j == 1} then
x := a[pre(j)];
j := pre(j) + 1;
end when;
end abc;
```

I don't really see the point of the `j==1`

condition. It is true at the outset which means it doesn't "become" true then. And since `j`

is never decremented, I don't see why it should ever return to the value `1`

once it increments for the first time.

Note that I added a `pre`

around the right-hand side values for `j`

. If this were in an
`equation`

section, I'm pretty sure the `pre`

would be required. Since it is an `algorithm`

section, it is mainly to document the intent of the code. It also makes the code robust to switching from `equation`

to `algorithm`

section.

`{(sample(0, delta_t) and j<k), j==1}`

as condition for the when-equation. The two lines of code inside your when-equation become active at the instant when either of the two conditions in your vector becomes true. At`time=0`

the condition`j==1`

becomes true and the code is executed at that very instant. – matth Feb 19 '13 at 9:14becometrue at time=0, it is true, since "j==1 and pre(j==1) = false". – Willi Feb 19 '13 at 13:06