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You can leverage the fact that expressions are unique. You can insert them into ordered dictionaries or hash-tables and use the dictionaries/hash-tables to detect whether you already traversed the same sub-expression. You can also leverage the fact that each sub-expression has a unique identifier. The identifier is unique as long as the expression is still ...


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The z++.h file contains definitions (shorthands) for using the unsigned bit-vector operations, for example: /** \brief unsigned less than or equal to operator for bitvectors. */ inline expr ule(expr const & a, expr const & b) { return to_expr(a.ctx(), Z3_mk_bvule(a.ctx(), a, b)); }


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If your application allows, I would suggest using a different encoding (e.g., bitvectors or ints), as this makes things much easier and avoids the permutation part at the encoding level. For example, use ints and restrict the values to be 0 or 1, then assert their sum is 3. Here's an encoding (rise4fun link: http://rise4fun.com/Z3/wswe ): (declare-fun b0 ...


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This is somewhat of a regression and thanks for pointing this out. The older version of PDR used predicates from the query when checking for inductiveness. The updated version omits this feature and diverges even though the property is very easily seen as inductive. Using predicates from the query isn't very general and I have tried to replace this with ...


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Z3 does indeed use thread local storage, but as far as I can see, there is only one point left in the code where it does so (to track how much memory each thread is using; in memory_manager.cpp), but that should not be responsible for the symptoms you see. Z3 should behave nicely in a multi-threaded setting, if every thread strictly uses only it's own ...


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One possible solution is (declare-datatypes () ((A (mk_A (key Int) (var1 Int) (var2 Int))))) (declare-const A_instances (Array Int A)) (declare-fun j () Int) (assert (forall ((i Int)) (implies (distinct i j) (distinct (key (select A_instances i)) (key (select A_instances j))) ) )) ...


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I believe that "(shiftreg >> 24)" is interpreted as an arithmetic shift right in the z3 python API: http://research.microsoft.com/en-us/um/redmond/projects/z3/z3.html (see rshift). I think you are expecting a logical right shift. First, let's reencode this into smt2. (declare-fun input () (_ BitVec 32)) (define-fun feedback () (_ BitVec 32) #x08049d30) ...


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It turns out that in Z3, the shift operators are logical shifts rather than arithmetic shifts. This means that a right shift >> is filled with the sign bit, rather than filled with zeroes. You must use the Logical Shift Right (LShR) function in order to get normal behavior. input = BitVec('input',32) feedback = 0x8049d30 shiftreg = input ^ ...


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There are two options: You can use "soft timeouts". They are less reliable than the timeout /T because soft timeout expiration is only checked periodically. Nevertheless, the option "smt.soft_timeout=10" would set a timeout of 10ms (instead of 10s). You can set the these options both from the command-line and within the SMT-LIB2 file using (set-option ...


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The "unstable" branch of Z3 has nightly builds and it includes HORN support. Go to z3.codeplex.com and select downloads, then select "Planned" in the dialog box for executables. There are several engines for HORN problems. In particular you can try also to enable the Duality engine using the option "fixedpoint.engine=duality".


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There isn't a real solution in context of standard usage of Z3. I am currently developing optimization features to Z3, which allows posing queries to get minimal/maximal values. You can do this with multiple objectives. Unfortunately, getting real optimals can be quite expensive so it does not replace a simple heuristic knob.


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The default simplifier seeks only rewrites that are cheap. There is a different simplifier that you can invoke as a tactic. It simplifies the goals you describe. For example: (declare-const a Bool) (declare-const b Bool) (assert (or a (and a b))) (apply ctx-solver-simplify) It may return several subgoal that need to be re-assembled to a formula. The Z3 ...


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Yes, that exception means that the solver ran out of memory.



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