/*++ Copyright (c) 2012 Microsoft Corporation Module Name: quasi_macros_tactic.cpp Abstract: Quasi-Macros Author: Christoph (cwinter) 2012-10-26 Notes: --*/ #include"tactical.h" #include"simplifier.h" #include"basic_simplifier_plugin.h" #include"arith_simplifier_plugin.h" #include"bv_simplifier_plugin.h" #include"macro_manager.h" #include"macro_finder.h" #include"extension_model_converter.h" #include"quasi_macros.h" #include"quasi_macros_tactic.h" class quasi_macros_tactic : public tactic { struct imp { ast_manager & m_manager; bool m_cancel; imp(ast_manager & m, params_ref const & p) : m_manager(m),m_cancel(false) { updt_params(p); } ast_manager & m() const { return m_manager; } void set_cancel(bool f) { m_cancel = f; } void operator()(goal_ref const & g, goal_ref_buffer & result, model_converter_ref & mc, proof_converter_ref & pc, expr_dependency_ref & core) { SASSERT(g->is_well_sorted()); mc = 0; pc = 0; core = 0; tactic_report report("quasi-macros", *g); fail_if_unsat_core_generation("quasi-macros", g); bool produce_proofs = g->proofs_enabled(); simplifier simp(m_manager); basic_simplifier_plugin * bsimp = alloc(basic_simplifier_plugin, m_manager); bsimp->set_eliminate_and(true); simp.register_plugin(bsimp); arith_simplifier_params a_params; arith_simplifier_plugin * asimp = alloc(arith_simplifier_plugin, m_manager, *bsimp, a_params); simp.register_plugin(asimp); bv_simplifier_params bv_params; bv_simplifier_plugin * bvsimp = alloc(bv_simplifier_plugin, m_manager, *bsimp, bv_params); simp.register_plugin(bvsimp); macro_manager mm(m_manager, simp); quasi_macros qm(m_manager, mm, simp); bool more = true; expr_ref_vector forms(m_manager), new_forms(m_manager); proof_ref_vector proofs(m_manager), new_proofs(m_manager); unsigned size = g->size(); for (unsigned i = 0; i < size; i++) { forms.push_back(g->form(i)); proofs.push_back(g->pr(i)); } while (more) { // CMW: use repeat(...) ? if (m_cancel) throw tactic_exception(TACTIC_CANCELED_MSG); new_forms.reset(); new_proofs.reset(); more = qm(forms.size(), forms.c_ptr(), proofs.c_ptr(), new_forms, new_proofs); forms.swap(new_forms); proofs.swap(new_proofs); } g->reset(); for (unsigned i = 0; i < new_forms.size(); i++) g->assert_expr(new_forms.get(i), produce_proofs ? new_proofs.get(i) : 0, 0); extension_model_converter * evmc = alloc(extension_model_converter, mm.get_manager()); unsigned num = mm.get_num_macros(); for (unsigned i = 0; i < num; i++) { expr_ref f_interp(mm.get_manager()); func_decl * f = mm.get_macro_interpretation(i, f_interp); evmc->insert(f, f_interp); } mc = evmc; g->inc_depth(); result.push_back(g.get()); TRACE("quasi-macros", g->display(tout);); SASSERT(g->is_well_sorted()); } void updt_params(params_ref const & p) { } }; imp * m_imp; params_ref m_params; public: quasi_macros_tactic(ast_manager & m, params_ref const & p): m_params(p) { m_imp = alloc(imp, m, p); } virtual tactic * translate(ast_manager & m) { return alloc(quasi_macros_tactic, m, m_params); } virtual ~quasi_macros_tactic() { dealloc(m_imp); } virtual void updt_params(params_ref const & p) { m_params = p; m_imp->updt_params(p); } virtual void collect_param_descrs(param_descrs & r) { insert_max_memory(r); insert_produce_models(r); insert_produce_proofs(r); } virtual void operator()(goal_ref const & in, goal_ref_buffer & result, model_converter_ref & mc, proof_converter_ref & pc, expr_dependency_ref & core) { (*m_imp)(in, result, mc, pc, core); } virtual void cleanup() { ast_manager & m = m_imp->m(); imp * d = m_imp; #pragma omp critical (tactic_cancel) { m_imp = 0; } dealloc(d); d = alloc(imp, m, m_params); #pragma omp critical (tactic_cancel) { m_imp = d; } } virtual void set_cancel(bool f) { if (m_imp) m_imp->set_cancel(f); } }; tactic * mk_quasi_macros_tactic(ast_manager & m, params_ref const & p) { return alloc(quasi_macros_tactic, m, p); }