/* Copyright (c) 2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include #include "kernel/metavar.h" #include "kernel/free_vars.h" #include "kernel/replace_visitor.h" #include "kernel/justification.h" #include "kernel/instantiate.h" #include "kernel/find_fn.h" #include "kernel/level.h" namespace lean { substitution::substitution() {} bool substitution::is_expr_assigned(name const & m) const { return m_expr_subst.contains(m); } auto substitution::get_expr_assignment(name const & m) const -> opt_expr_jst { auto it = m_expr_subst.find(m); if (it) return opt_expr_jst(mk_pair(*it, get_expr_jst(m))); else return opt_expr_jst(); } bool substitution::is_level_assigned(name const & m) const { return m_level_subst.contains(m); } auto substitution::get_level_assignment(name const & m) const -> opt_level_jst { auto it = m_level_subst.find(m); if (it) return opt_level_jst(mk_pair(*it, get_level_jst(m))); else return opt_level_jst(); } optional substitution::get_expr(name const & m) const { auto it = m_expr_subst.find(m); return it ? some_expr(*it) : none_expr(); } optional substitution::get_level(name const & m) const { auto it = m_level_subst.find(m); return it ? some_level(*it) : none_level(); } void substitution::assign(name const & m, expr const & t, justification const & j) { lean_assert(closed(t)); m_expr_subst.insert(m, t); if (!j.is_none()) m_expr_jsts.insert(m, j); } void substitution::assign(name const & m, level const & l, justification const & j) { m_level_subst.insert(m, l); if (!j.is_none()) m_level_jsts.insert(m, j); } pair substitution::instantiate_metavars(level const & l, bool use_jst) { if (!has_meta(l)) return mk_pair(l, justification()); justification j; auto save_jst = [&](justification const & j2) { j = mk_composite1(j, j2); }; level r = replace(l, [&](level const & l) { if (!has_meta(l)) { return some_level(l); } else if (is_meta(l)) { auto p1 = get_assignment(l); if (p1) { auto p2 = instantiate_metavars(p1->first, use_jst); if (use_jst) { justification new_jst = mk_composite1(p1->second, p2.second); assign(meta_id(l), p2.first, new_jst); save_jst(new_jst); } else { assign(meta_id(l), p2.first); } return some_level(p2.first); } } return none_level(); }); return mk_pair(r, j); } class instantiate_metavars_fn : public replace_visitor { protected: substitution & m_subst; justification m_jst; bool m_use_jst; bool m_inst_local_types; void save_jst(justification const & j) { m_jst = mk_composite1(m_jst, j); } level visit_level(level const & l) { auto p1 = m_subst.instantiate_metavars(l, m_use_jst); if (m_use_jst) save_jst(p1.second); return p1.first; } levels visit_levels(levels const & ls) { return map_reuse(ls, [&](level const & l) { return visit_level(l); }, [](level const & l1, level const & l2) { return is_eqp(l1, l2); }); } virtual expr visit_sort(expr const & s) { return update_sort(s, visit_level(sort_level(s))); } virtual expr visit_constant(expr const & c) { return update_constant(c, visit_levels(const_levels(c))); } virtual expr visit_local(expr const & l) { if (m_inst_local_types) return replace_visitor::visit_local(l); else return l; } virtual expr visit_meta(expr const & m) { name const & m_name = mlocal_name(m); auto p1 = m_subst.get_expr_assignment(m_name); if (p1) { if (!has_metavar(p1->first)) { if (m_use_jst) save_jst(p1->second); return p1->first; } else if (m_use_jst) { auto p2 = m_subst.instantiate_metavars(p1->first); justification new_jst = mk_composite1(p1->second, p2.second); m_subst.assign(m_name, p2.first, new_jst); save_jst(new_jst); return p2.first; } else { auto p2 = m_subst.instantiate_metavars(p1->first); m_subst.assign(m_name, p2.first, mk_composite1(p1->second, p2.second)); return p2.first; } } else { return m; } } virtual expr visit_app(expr const & e) { buffer args; expr const & f = get_app_rev_args(e, args); if (is_metavar(f)) { if (auto p1 = m_subst.get_expr_assignment(mlocal_name(f))) { if (m_use_jst) save_jst(p1->second); expr new_app = apply_beta(p1->first, args.size(), args.data()); return visit(new_app); } } expr new_f = visit(f); buffer new_args; bool modified = !is_eqp(new_f, f); for (expr const & arg : args) { expr new_arg = visit(arg); if (!is_eqp(arg, new_arg)) modified = true; new_args.push_back(new_arg); } if (!modified) return e; else return mk_rev_app(new_f, new_args); } virtual expr visit(expr const & e) { if (!has_metavar(e)) { return e; } else { return replace_visitor::visit(e); } } public: instantiate_metavars_fn(substitution & s, bool use_jst, bool inst_local_types): m_subst(s), m_use_jst(use_jst), m_inst_local_types(inst_local_types) {} justification const & get_justification() const { return m_jst; } }; pair substitution::instantiate_metavars_core(expr const & e, bool inst_local_types) { if (!has_metavar(e)) { return mk_pair(e, justification()); } else { instantiate_metavars_fn fn(*this, true, inst_local_types); expr r = fn(e); return mk_pair(r, fn.get_justification()); } } expr substitution::instantiate_metavars_wo_jst(expr const & e, bool inst_local_types) { return instantiate_metavars_fn(*this, false, inst_local_types)(e); } bool substitution::occurs_expr_core(name const & m, expr const & e, name_set & visited) const { bool found = false; for_each(e, [&](expr const & e, unsigned) { if (found || !has_expr_metavar(e)) return false; if (is_metavar(e)) { name const & n = mlocal_name(e); if (n == m) found = true; auto s = get_expr(e); if (!s || visited.contains(n)) return false; // do not visit type visited.insert(n); if (s && occurs_expr_core(m, *s, visited)) found = true; return false; // do not visit type } if (is_local(e)) return false; // do not visit type return true; }); return found; } bool substitution::occurs_expr(name const & m, expr const & e) const { if (!has_expr_metavar(e)) return false; name_set visited; return occurs_expr_core(m, e, visited); } }