# Error in the z3 python code

The following code terminates after 8 iterations (while it should iterate 14 times) why?

The code encodes a linear hybrid automata, it should run for the designated number of iterations but doesn't.

``````from z3 import *
x,t,t1,t2,x_next=Reals ('x t t1 t2 x_next')

location=[None]
location='off'
x=20
t1=0

s=Solver()
#set_option(precision=10)
k=14
for   i in range(k):

print location
if location=='off':
elif location=='on':

if  [location=='off' and x_next<19] :
location='on'
elif [location=='on' and x_next>21]:
location='off'

if s.check()==unsat:
break

m=s.model()
#print s.check()
print i
print location
print s.model()

print "value of x_next"
print m[x_next].as_decimal(10)

x=m[x_next]
t1=m[t2]
``````
-

The program stops because the set of assertions is unsatisfiable after iteration 8, and in your loop you have the statements:

``````if s.check()==unsat:
break
``````

In the first iteration you add the assertion:

``````10*x_next <= 200 - t2 - 0
``````

In the last iteration, you add:

``````10*x_next >= t2 - Q(40,3) + 10*Q(56,3),
t2 - Q(40,3) > 0
``````

where, the command `Q(a, b)` is used to create the rational number `a/b`. That is, `t1` is `40/3` and `x` is `56/3` at iteration 8. The three assertions above are unsatisfiable. The first two imply that `t2 <= 40/3`, and the last `t2 > 40/3`.

BTW, the following statement seems to be incorrect. That is, I do not believe it reflects your intention. Note that, this is orthogonal problem.

``````if  [location=='off' and x_next<19] :
``````

The expression `x_next<19` does not evaluate to `True` or `False`. It creates the Z3 (symbolic) expression `x_next < 19`. I believe, you want to evaluate whether this expression is true in a model `m`. If that is the case, you should write:

``````if  location=='off' and is_true(m.evaluate(x_next<19)) :
``````

The command `m.evaluate(t)` evaluates the expression `t` in the model `m`. The result is a Z3 expression. The function `is_true(t)` returns `True` if `t` is the Z3 expression true.

-
can the satisfiability of the first one be checked independently from the last two assertion? Infact They have to be checked indep. is his correct if [location=='off' and m[x_next]<19] :????? –  hafizul asad Aug 6 '12 at 15:34
Regarding the first question, your loop is accumulating all assertions. That is, you are checking the satisfiability of all of them in each iteration. If you want to check at iteration `i` just the formula created at iteration `i`, then you should create a new solver at each iteration. That is, you should put `s = Solver()` inside the for-loop. –  Leonardo de Moura Aug 6 '12 at 16:16
Regarding the second question, `m[x_next]` returns a Z3 expression. It may be a numeral, but it is not a Python integer. Since, `x_next` is a real, `m[x_next]` may not even be an integer. Thus, converting it to a Python integer is not a good idea. Converting it into a float is also problematic since we may lose precision. Moreover, since `m[x_next]` is a Z3 expression, then `m[x_next]<19` is also a Z3 (symbolic) expression. –  Leonardo de Moura Aug 6 '12 at 16:19
thanx the code is now in running condition atleast. Can i make this if else structure as part of the assertions? –  hafizul asad Aug 6 '12 at 16:36
Yes, you can. However, you have to create Z3 variables to represent `location` and `location_next`. Assuming you are using `True` and `False` to represent `on` and `off`. We can encode the `location` update as `location_next == If(And(Not(location), x_next < 19), True, If(And(location, x_next > 21), False, location))`. I created `location` and `location_next` using command `location, location_next = Bools('location location_next')` –  Leonardo de Moura Aug 6 '12 at 17:02