/*++ Copyright (c) 2011 Microsoft Corporation Module Name: expr_substitution.cpp Abstract: expr -> expr substitution Author: Leonardo (leonardo) 2011-04-29 Notes: --*/ #include"expr_substitution.h" #include"ref_util.h" typedef obj_map expr2proof; typedef obj_map expr2expr_dependency; void expr_substitution::init() { if (proofs_enabled()) m_subst_pr = alloc(expr2proof); if (unsat_core_enabled()) m_subst_dep = alloc(expr2expr_dependency); } expr_substitution::expr_substitution(ast_manager & m): m_manager(m), m_cores_enabled(false), m_proofs_enabled(m.proofs_enabled()) { init(); } expr_substitution::expr_substitution(ast_manager & m, bool core_enabled): m_manager(m), m_cores_enabled(core_enabled), m_proofs_enabled(m.proofs_enabled()) { init(); } expr_substitution::expr_substitution(ast_manager & m, bool core_enabled, bool proofs_enabled): m_manager(m), m_cores_enabled(core_enabled), m_proofs_enabled(proofs_enabled) { SASSERT(!proofs_enabled || m.proofs_enabled()); init(); } expr_substitution::~expr_substitution() { reset(); } void expr_substitution::insert(expr * c, expr * def, proof * def_pr, expr_dependency * def_dep) { obj_map::obj_map_entry * entry = m_subst.insert_if_not_there2(c, 0); if (entry->get_data().m_value == 0) { // new entry m_manager.inc_ref(c); m_manager.inc_ref(def); entry->get_data().m_value = def; if (proofs_enabled()) { SASSERT(!m_subst_pr->contains(c)); m_subst_pr->insert(c, def_pr); m_manager.inc_ref(def_pr); } if (unsat_core_enabled()) { SASSERT(!m_subst_dep->contains(c)); m_subst_dep->insert(c, def_dep); m_manager.inc_ref(def_dep); } } else { // replacing entry m_manager.inc_ref(def); m_manager.dec_ref(entry->get_data().m_value); entry->get_data().m_value = def; if (proofs_enabled()) { obj_map::obj_map_entry * entry_pr = m_subst_pr->find_core(c); SASSERT(entry_pr != 0); m_manager.inc_ref(def_pr); m_manager.dec_ref(entry_pr->get_data().m_value); entry_pr->get_data().m_value = def_pr; } if (unsat_core_enabled()) { obj_map::obj_map_entry * entry_dep = m_subst_dep->find_core(c); SASSERT(entry_dep != 0); m_manager.inc_ref(def_dep); m_manager.dec_ref(entry_dep->get_data().m_value); entry_dep->get_data().m_value = def_dep; } } } void expr_substitution::erase(expr * c) { if (proofs_enabled()) { proof * pr = 0; if (m_subst_pr->find(c, pr)) { m_manager.dec_ref(pr); m_subst_pr->erase(c); } } if (unsat_core_enabled()) { expr_dependency * dep = 0; if (m_subst_dep->find(c, dep)) { m_manager.dec_ref(dep); m_subst_dep->erase(c); } } expr * def = 0; if (m_subst.find(c, def)) { m_manager.dec_ref(c); m_manager.dec_ref(def); m_subst.erase(c); } } bool expr_substitution::find(expr * c, expr * & def, proof * & def_pr) { if (m_subst.find(c, def)) { if (proofs_enabled()) m_subst_pr->find(c, def_pr); return true; } return false; } bool expr_substitution::find(expr * c, expr * & def, proof * & def_pr, expr_dependency * & def_dep) { if (m_subst.find(c, def)) { if (proofs_enabled()) m_subst_pr->find(c, def_pr); if (unsat_core_enabled()) m_subst_dep->find(c, def_dep); return true; } return false; } void expr_substitution::reset() { dec_ref_map_key_values(m_manager, m_subst); if (proofs_enabled()) dec_ref_map_values(m_manager, *m_subst_pr); if (unsat_core_enabled()) dec_ref_map_values(m_manager, *m_subst_dep); } void expr_substitution::cleanup() { reset(); m_subst.finalize(); if (proofs_enabled()) m_subst_pr->finalize(); if (unsat_core_enabled()) m_subst_dep->finalize(); }