/*++ Copyright (c) 2017 Microsoft Corporation Author: Lev Nachmanson (levnach) Nikolaj Bjorner (nbjorner) --*/ #pragma once #include "util/dependency.h" #include "util/region.h" #include "math/lp/nla_common.h" #include "math/lp/lar_solver.h" #include "math/interval/interval.h" #include "math/interval/dep_intervals.h" #include "util/dependency.h" namespace nla { class core; class intervals { mutable dep_intervals m_dep_intervals; core* m_core; public: typedef dep_intervals::interval interval; private: u_dependency* mk_dep(lp::constraint_index ci); u_dependency* mk_dep(lp::explanation const&); lp::lar_solver& ls(); const lp::lar_solver& ls() const; public: intervals(core* c, reslimit& lim) : m_dep_intervals(lim), m_core(c) {} dep_intervals& get_dep_intervals() { return m_dep_intervals; } u_dependency* mk_join(u_dependency* a, u_dependency* b) { return m_dep_intervals.mk_join(a, b); } u_dependency* mk_leaf(lp::constraint_index ci) { return m_dep_intervals.mk_leaf(ci); } std::ostream& print_dependencies(u_dependency*, std::ostream&) const; std::ostream& display(std::ostream& out, const intervals::interval& i) const; void set_lower(interval& a, rational const& n) const { m_dep_intervals.set_lower(a, n.to_mpq()); } void set_upper(interval& a, rational const& n) const { m_dep_intervals.set_upper(a, n.to_mpq()); } void set_lower_is_open(interval& a, bool strict) { m_dep_intervals.set_lower_is_open(a, strict); } void set_lower_is_inf(interval& a, bool inf) { m_dep_intervals.set_lower_is_inf(a, inf); } void set_upper_is_open(interval& a, bool strict) { m_dep_intervals.set_upper_is_open(a, strict); } void set_upper_is_inf(interval& a, bool inf) { m_dep_intervals.set_upper_is_inf(a, inf); } bool is_zero(const interval& a) const { return m_dep_intervals.is_zero(a); } template void set_var_interval(lpvar v, interval& b); template bool interval_from_term(const nex& e, scoped_dep_interval& i); template bool interval_of_sum_no_term(const nex_sum& e, scoped_dep_interval&, const std::function& f ); template bool interval_of_sum(const nex_sum& e, scoped_dep_interval&, const std::function& ); template bool interval_of_mul(const nex_mul& e, scoped_dep_interval&, const std::function&); template void to_power(scoped_dep_interval&, unsigned); template bool interval_of_expr(const nex* e, unsigned p, scoped_dep_interval&, const std::function& f); bool upper_is_inf(const interval& a) const { return m_dep_intervals.upper_is_inf(a); } bool lower_is_inf(const interval& a) const { return m_dep_intervals.lower_is_inf(a); } void set_zero_interval_deps_for_mult(interval&); void set_zero_interval_with_explanation(interval&, const lp::explanation& exp); void set_zero_interval(interval&); bool is_inf(const interval& i) const { return m_dep_intervals.is_inf(i); } bool check_nex(const nex*, u_dependency*); const nex* get_zero_interval_child(const nex_mul&) const; const nex* get_inf_interval_child(const nex_sum&) const; bool has_zero_interval(const nex&) const; bool has_inf_interval(const nex&) const; bool mul_has_inf_interval(const nex_mul&) const; static lp::lar_term expression_to_normalized_term(const nex_sum*, rational& a, rational& b); static void add_linear_to_vector(const nex*, vector>&); static void add_mul_of_degree_one_to_vector(const nex_mul*, vector>&); lpvar find_term_column(const lp::lar_term&, rational& a) const; std::ostream& display_separating_interval(std::ostream& out, const nex*n, const scoped_dep_interval& interv_wd, u_dependency* initial_deps); bool conflict_u_l(const interval& a, const interval& b) const; }; // end of intervals } // end of namespace nla