4.6 KiB
Translating an LTL formula into a never claim
Here is how to translate an LTL (or PSL) formula into a never claim.
Shell
ltl2tgba --spin 'GFa -> GFb'never { /* F(GFb | G!a) */
T0_init:
if
:: ((!(a))) -> goto accept_S0
:: ((true)) -> goto T0_init
:: ((b)) -> goto accept_S2
fi;
accept_S0:
if
:: ((!(a))) -> goto accept_S0
fi;
accept_S2:
if
:: ((b)) -> goto accept_S2
:: ((!(b))) -> goto T0_S3
fi;
T0_S3:
if
:: ((b)) -> goto accept_S2
:: ((!(b))) -> goto T0_S3
fi;
}
Python
The formula function returns a formula object (or raises a
parse-error exception). Formula objects have a translate() method
that returns an automaton, and the automata objects have a to_str
method that can output in one of the supported syntaxes.
So the translation is actually a one-liner in Python:
import spot
print(spot.formula('GFa -> GFb').translate('BA').to_str('spin'))never {
T0_init:
if
:: ((!(a))) -> goto accept_S0
:: ((true)) -> goto T0_init
:: ((b)) -> goto accept_S2
fi;
accept_S0:
if
:: ((!(a))) -> goto accept_S0
fi;
accept_S2:
if
:: ((b)) -> goto accept_S2
:: ((!(b))) -> goto T0_S3
fi;
T0_S3:
if
:: ((b)) -> goto accept_S2
:: ((!(b))) -> goto T0_S3
fi;
}
The above line can actually be made a bit shorter, because
translate() can also be used as a function (as opposed to a method)
that takes a formula (possibly as a string) as first argument:
import spot
print(spot.translate('GFa -> GFb', 'BA').to_str('spin'))never {
T0_init:
if
:: ((!(a))) -> goto accept_S0
:: ((true)) -> goto T0_init
:: ((b)) -> goto accept_S2
fi;
accept_S0:
if
:: ((!(a))) -> goto accept_S0
fi;
accept_S2:
if
:: ((b)) -> goto accept_S2
:: ((!(b))) -> goto T0_S3
fi;
T0_S3:
if
:: ((b)) -> goto accept_S2
:: ((!(b))) -> goto T0_S3
fi;
}
C++
All the translation pipeline (this include simplifying the formula,
translating the simplified formula into an automaton, and simplifying
the resulting automaton) is handled by the spot::translator class.
An instance of this class can configured by calling set_type() to
chose the type of automaton to output, set_level() to set the level
of optimization (it's high by default), and set_pref() to set
various preferences (like small or deterministic) or characteristic
(complete, unambiguous) for the resulting automaton. Finally, the
output as a never claim is done via the print_never_claim function.
#include <iostream>
#include <spot/tl/parse.hh>
#include <spot/twaalgos/translate.hh>
#include <spot/twaalgos/neverclaim.hh>
int main()
{
spot::parsed_formula pf = spot::parse_infix_psl("[]<>p0 || <>[]p1");
if (pf.format_errors(std::cerr))
return 1;
spot::translator trans;
trans.set_type(spot::postprocessor::BA);
spot::twa_graph_ptr aut = trans.run(pf.f);
print_never_claim(std::cout, aut) << '\n';
return 0;
}never {
T0_init:
if
:: (p1) -> goto accept_S0
:: (true) -> goto T0_init
:: (p0) -> goto accept_S2
fi;
accept_S0:
if
:: (p1) -> goto accept_S0
fi;
accept_S2:
if
:: (p0) -> goto accept_S2
:: (!(p0)) -> goto T0_S3
fi;
T0_S3:
if
:: (p0) -> goto accept_S2
:: (!(p0)) -> goto T0_S3
fi;
}
Additional comments
The Python version of translate() is documented as follows:
import spot
help(spot.translate)Help on function translate in module spot:
translate(formula, *args)
Translate a formula into an automaton.
Keep in mind that pref expresses just a preference that may not be
satisfied.
The optional arguments should be strings among the following:
- at most one in 'TGBA', 'BA', or 'Monitor'
(type of automaton to build)
- at most one in 'Small', 'Deterministic', 'Any'
(preferred characteristics of the produced automaton)
- at most one in 'Low', 'Medium', 'High'
(optimization level)
- any combination of 'Complete', 'Unambiguous', and
'StateBasedAcceptance' (or 'SBAcc' for short)
The default correspond to 'tgba', 'small' and 'high'.