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Here is my problem. I have way too many constraints. Hence the unsat core generated is not informative. However, I manually started excluding constraints and I zeroed down on a set of problematic constraints. My aim is to check for perhaps known issues with Z3. I am calculating probabilities with real variables p. I impose bounds on them

p1<= 1.0
p1>= 0.0
p2<= 1.0
p2>= 0.0

There is a constraint that calculates probabilities.

a=1 and b=0 implies p1 = c * p2

c here is a constant. a , b are real variables.

Now, what I observe is, I get an UNSAT but having removed the bounds, I get a SAT. The strange thing though when I traverse through the model, the assignments made to p1 and p2 are between 0 and 1. To be precise 1 hence not violating these bounds. Is there any known issue similar to this? I understand this is too vague but I am not sure how to present this question without putting my whole project here...

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So should we understand that your constraints involve non-linear polynomials over the reals? In that case, there is a question whether you use the dedicated non-linear solver or the more general solver (Z3 could use different backends depending on how problems are presented). Can you check if the alledged model is really a model of the formula. – Nikolaj Bjorner Apr 7 '13 at 23:13
sorry, it is linear over reals. c is a constant. – user592748 Apr 8 '13 at 7:48
I just checked with Z3_model_to_string function and I get the exact fractions that have been assigned to variables. Turns out there are an awful lot of digits. One of the assignments for example, is 214182245414561645441490496614564/214182245414561641838610794718167 Which turns out is when calculated beyond a few decimal places is 1.000000000000000016821560979169039255272413681161082369357703... – user592748 Apr 8 '13 at 10:36
I am not sure where this precision is lost. The functions used to retrieve this information is Z3_ast_to_string and mpq_set_str(tmp, Z3_ast_to_string(z3, val_ast), 50). I was using double but now changed it to long double but the precision is still lost somewhere! – user592748 Apr 8 '13 at 10:37
Some comments. 1) Z3 represents rational numbers using arbitrary precision arithmetic. So, precision is not an issue. 2) We should not check the Z3 solution using long double (due to rounding in floating point computations). 3) Z3 can evaluate expressions in the produced model/solution. 4) If you provide the actual problem/formula you sent to Z3, we will be able to provide better feedback. – Leonardo de Moura Apr 9 '13 at 1:12

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