--- layout: fc_discuss_archives title: Message 16 from Frama-C-discuss on May 2013 ---
Hi, I think that what you describe is currently not possible with Frama-C value analysis. The abstract domains of value consist of numeric intervals, which explains your "cartesian product" result. In the integer case, you managed to get the precise result because the assertion you added forced value to perform a case analysis: it tried with test1 == 1, then test1 == 2, ... test1 == 5. Of course you cannot do that with floats. What is missing for your analysis are relational domains; in you case, just remembering that test1 == test1 would be sufficient to get the most precise result. For more complex programs, more complex relational domains have to be used. Another way to improve the precision of the analysis for floats would be to perform case analysis using "small" intervals of floats. Both approaches require new development in Frama-C; if you need them, feel free to contact us for a support contract to implement them in Frama-C. Best regards Matthieu Rovedy Aparecida Busquim e Silva <rovedy at ig.com.br> writes: > Hi, > > We have a doubt. > We have a algorithm with some calculations in a loop and there is a > division between 2 variables that are intervals. We would like that the > result was 1 to variables with the same intervals, i.e., that the Frama-C > not compute the cartesian product. How to do that? > > We ran some examples. In the example 1 with integer variables, it was easy > to employ asserts and get the correct results. > > However the problem is with float variables. In the example 2, we have > tried to use similar asserts to example 1, but it did not work. > > In the loop iterations of the algorithm, we are taking in account that: > -the intervals values are not constant > -the interval range can be large, the minimum value can be negative > > example 1: > > int test1, test2; > test1= Frama_C_interval(1, 5); > aux=(float)test1/(float)test1; > > Frama-C output of example 1: > [value] Values for function main: > aux ? [0.2 .. 5.] > test1 ? {1; 2; 3; 4; 5; } > > using the following assert in the example 1 > //@ assert test1 > 0 && test1 < 2 || test1 > 1 && test1 < 3 || test1 > 2 > && test1 < 4 || test1 > 3 && test1 < 5; > > Frama-C output of example 1 with assert: > [value] Values for function main: > aux ? 1. > test1 ? {1; 2; 3; 4; } > > example 2: > float test1, test2; > float aux; > test1= Frama_C_float_interval(1.0, 5.0); > aux=test1/test1; > > Frama-C output of example 2: > [value] Values for function main: > test1 ? [1. .. 5.] > aux ? [0.2 .. 5.] > > Thanks a lot. > Rovedy, Nanci, Luciana > _______________________________________________ > Frama-c-discuss mailing list > Frama-c-discuss at lists.gforge.inria.fr > http://lists.gforge.inria.fr/cgi-bin/mailman/listinfo/frama-c-discuss