libm functions such as sin() are 1) usually side-effect free and 2) on floating-point values, which are not typically used for control decision, so many of them can probably be shown statically to not affect branch decision.
But let us think about the purpose of symbolicizing them: 1. Since they do not typically affect branch decision, symbolicizing them is not needed to obtain better coverage. 2. Symbolicizing them may be needed for discovering floating-point errors, but in that case we need to provide the real number semantics or some auxiliary semantics specific to our purpose, to the libm functions and not leaving them uninterpreted. Given the above, I am still unsure about the extent of the merit of implementing a support for uninterpreted functions, but I am probably missing something. Best, Andrew On Saturday, 17 December 2016, 2:09, Dan Liew <[email protected]> wrote: Hi Javier, On 14 December 2016 at 13:28, Javier Godoy <[email protected]> wrote: > Hi! > > Is possible to mark a function as uninterpreted function in Klee? > > Example i need: > > > foo(int a) > { > if( boo(a) > 0) > return 0; > else > return 1; > } > > boo(int x) //I want to mark this as uninterpreted > { > ... > return x; > } You could sort of model an uninterpreted function by having `boo` return a fresh symbolic variable for every value of x it hasn't seen before and the same symbolic variable for the corresponding value of x previously seen. This isn't really the right way to solve the problem. The STP solver doesn't support uninterpreted functions however Z3 does and now that we have first class Z3 support in KLEE this something that could be implemented. So the right way of going about this would be to 1. Introduce something like a `UFExprCall` expression and a `UninterpretedFunction` type to KLEE's Expr language. KLEE's Expr language is not typed so this might be a bit of challenge. 2. Teach the Z3Builder and other parts of KLEE's code how to handle these new parts of KLEE's Expr language 3. Figure out a way to annotate functions in C such that KLEE at runtime can construct the `UninterpretedFunction`s in the program. You also need to make sure that the function cannot be inlined (there is an LLVM function attribute that can do this) and that it has no body (so it can't change any state). This would be a lot of work but could be a valuable contribution to KLEE because it would give us a new way model certain functions. E.g. if we were executing `sin()` we could replace that with a `UF` if we can statically prove that we never branch on the value that is returned by `sin()`. I do not have time to do this myself so if you are interested in this feature you would have to implement it. Dan. _______________________________________________ klee-dev mailing list [email protected] https://mailman.ic.ac.uk/mailman/listinfo/klee-dev _______________________________________________ klee-dev mailing list [email protected] https://mailman.ic.ac.uk/mailman/listinfo/klee-dev
