Verilog dataflow delay model

I am reading about Verilog data-flow programming.

I have learned about delays in data-flow model but now I have some misunderstandings about it. I found that in data-flow model we have rejection delay model in other words for `assign #2 c= a | b` changes can be rejected.

My question is that when will the input changes will be rejected?
I am sure that when a or b change so that c expected value changes than we should start the 2 unit delay again!

My question is, do we need to again start the delay when a or b change but expected c doesn't change?

For example in `a or b` "a" is 0 and "b" is 1 and after sometimes we will change "a" to 1. Is there any need to reject previous time and start the 2 unit delay again for seeing the 1 in output? (note that expected c will not change because our operation is or).

-

The simulator will evaluate the LHS (left hand side) of the expressions first, then apply changes the variable on the RHS (right-hand-side). Rejection (or filtering) is determined by the results of the LHS expression.

To visualize this, add an intermediate step between `a | b`.

``````assign ab = a | b;
assign #2 c = ab;
``````

Run it thought the simulate to generate a waveform. An example output:

``````     0    5   10   15   20   25
|    |    |    |    |    |
_            _        __
a    ___/ \__________/ \______/
__        _____
b    _______/\___/  \______/
_        __  _     _____
ab   ___/ \_/\___/  \/ \___/
_        _____     ___
c    xx___/ \______/     \___/
``````

First 2 time steps of `c` are unknown because there is no data for `ab` before time 0. The pulse on `ab` starting at times 7 and 15 are filtered out since they are less then 2 time steps. All other transitions in `c` is a shift by 2 in time `ab`.

There is no rejection time when `a` goes high at time 25 because the intermediate step (`ab`) does not have a transition. The simulator will do its own intermediate step, evaluating a change on `a | b` before deciding what action should be performed in `c`.

-