/* Copyright (c) 2013-2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include "kernel/abstract.h" #include "kernel/instantiate.h" #include "kernel/for_each_fn.h" #include "library/kernel_bindings.h" #include "library/locals.h" #include "library/match.h" namespace lean { static name g_tmp_prefix = name::mk_internal_unique_name(); level mk_idx_meta_univ(unsigned i) { return mk_meta_univ(name(g_tmp_prefix, i)); } bool is_idx_meta_univ(level const & l) { if (!is_meta(l)) return false; name const & n = meta_id(l); return !n.is_atomic() && n.is_numeral() && n.get_prefix() == g_tmp_prefix; } unsigned to_meta_idx(level const & l) { lean_assert(is_idx_meta_univ(l)); return meta_id(l).get_numeral(); } class match_fn : public match_context { buffer> & m_esubst; buffer> & m_lsubst; name_generator m_ngen; name_map * m_name_subst; match_plugin const * m_plugin; void _assign(expr const & p, expr const & t) { lean_assert(var_idx(p) < m_esubst.size()); unsigned vidx = var_idx(p); unsigned sz = m_esubst.size(); m_esubst[sz - vidx - 1] = t; } void _assign(level const & p, level const & l) { lean_assert(to_meta_idx(p) < m_lsubst.size()); m_lsubst[to_meta_idx(p)] = l; } void throw_exception() const { throw exception("ill-formed higher-order matching problem"); } optional _get_subst(expr const & x) const { unsigned vidx = var_idx(x); unsigned sz = m_esubst.size(); if (vidx >= sz) throw_exception(); return m_esubst[sz - vidx - 1]; } optional _get_subst(level const & x) const { unsigned i = to_meta_idx(x); if (i > m_lsubst.size()) throw_exception(); return m_lsubst[i]; } virtual void assign(expr const & p, expr const & t) { return _assign(p, t); } virtual void assign(level const & p, level const & t) { return _assign(p, t); } virtual optional get_subst(expr const & x) const { return _get_subst(x); } virtual optional get_subst(level const & x) const { return _get_subst(x); } virtual name mk_name() { return m_ngen.next(); } bool args_are_distinct_locals(buffer const & args) { for (auto it = args.begin(); it != args.end(); it++) { if (!is_local(*it) || contains_local(*it, args.begin(), it)) return false; } return true; } optional proj(expr const & t, buffer const & args) { expr r = Fun(args, t); if (has_local(r)) return none_expr(); else return some_expr(r); } bool try_plugin(expr const & p, expr const & t) { if (!m_plugin) return false; return (*m_plugin)(p, t, *this); } bool match_binding(expr p, expr t) { lean_assert(is_binding(p) && is_binding(t)); buffer ls; expr_kind k = p.kind(); while (p.kind() == k && t.kind() == k) { if (m_name_subst) (*m_name_subst)[binding_name(p)] = binding_name(t); expr p_d = instantiate_rev(binding_domain(p), ls.size(), ls.data()); expr t_d = instantiate_rev(binding_domain(t), ls.size(), ls.data()); if (!match(p_d, t_d)) return false; expr l = mk_local(m_ngen.next(), binding_name(t), t_d, binding_info(t)); ls.push_back(l); p = binding_body(p); t = binding_body(t); } if (p.kind() == k || t.kind() == k) return false; p = instantiate_rev(p, ls.size(), ls.data()); t = instantiate_rev(t, ls.size(), ls.data()); return match(p, t); } bool match_macro(expr const & p, expr const & t) { if (macro_def(p) == macro_def(t) && macro_num_args(p) == macro_num_args(t)) { for (unsigned i = 0; i < macro_num_args(p); i++) { if (!match(macro_arg(p, i), macro_arg(t, i))) return false; } return true; } return false; } bool match_app(expr const & p, expr const & t) { return match_core(app_fn(p), app_fn(t)) && match(app_arg(p), app_arg(t)); } bool match_level_core(level const & p, level const & l) { if (p == l) return true; if (p.kind() == l.kind()) { switch (p.kind()) { case level_kind::Zero: lean_unreachable(); // LCOV_EXCL_LINE case level_kind::Param: case level_kind::Global: case level_kind::Meta: return false; case level_kind::Succ: return match_level(succ_of(p), succ_of(l)); case level_kind::Max: return match_level(max_lhs(p), max_lhs(l)) && match_level(max_rhs(p), max_rhs(l)); case level_kind::IMax: return match_level(imax_lhs(p), imax_lhs(l)) && match_level(imax_rhs(p), imax_rhs(l)); } } return false; } bool match_level(level const & p, level const & l) { if (is_idx_meta_univ(p)) { auto s = _get_subst(p); if (s) { return match_level_core(*s, l); } else { _assign(p, l); return true; } } return match_level_core(p, l); } bool match_levels(levels ps, levels ls) { while (ps && ls) { if (!match_level(head(ps), head(ls))) return false; ps = tail(ps); ls = tail(ls); } return true; } bool match_core(expr const & p, expr const & t) { if (p.kind() != t.kind()) return try_plugin(p, t); switch (p.kind()) { case expr_kind::Local: case expr_kind::Meta: return mlocal_name(p) == mlocal_name(t); case expr_kind::Var: lean_unreachable(); // LCOV_EXCL_LINE case expr_kind::Constant: return const_name(p) == const_name(t) && match_levels(const_levels(p), const_levels(t)); case expr_kind::Sort: return match_level(sort_level(p), sort_level(t)); case expr_kind::Lambda: case expr_kind::Pi: return match_binding(p, t) || try_plugin(p, t); case expr_kind::Macro: return match_macro(p, t) || try_plugin(p, t); case expr_kind::App: return match_app(p, t) || try_plugin(p, t); } lean_unreachable(); // LCOV_EXCL_LINE } public: match_fn(buffer> & esubst, buffer> & lsubst, name_generator const & ngen, name_map * name_subst, match_plugin const * plugin): m_esubst(esubst), m_lsubst(lsubst), m_ngen(ngen), m_name_subst(name_subst), m_plugin(plugin) {} bool match(expr const & p, expr const & t) { if (is_var(p)) { auto s = _get_subst(p); if (s) { return match_core(*s, t); } else if (has_local(t)) { return false; } else { _assign(p, t); return true; } } else if (is_app(p)) { buffer args; expr const & f = get_app_rev_args(p, args); if (is_var(f)) { // higher-order pattern case auto s = _get_subst(f); if (s) { expr new_p = apply_beta(*s, args.size(), args.data()); return match_core(new_p, t); } if (args_are_distinct_locals(args)) { optional new_t = proj(t, args); if (new_t) { _assign(f, *new_t); return true; } } } // fallback to the first-order case } return match_core(p, t); } }; bool match(expr const & p, expr const & t, buffer> & esubst, buffer> & lsubst, name const * prefix, name_map * name_subst, match_plugin const * plugin) { lean_assert(closed(t)); if (prefix) return match_fn(esubst, lsubst, name_generator(*prefix), name_subst, plugin).match(p, t); else return match_fn(esubst, lsubst, name_generator(g_tmp_prefix), name_subst, plugin).match(p, t); } static unsigned updt_idx_meta_univ_range(level const & l, unsigned r) { for_each(l, [&](level const & l) { if (!has_meta(l)) return false; if (is_idx_meta_univ(l)) { unsigned new_r = to_meta_idx(l) + 1; if (new_r > r) r = new_r; } return true; }); return r; } static unsigned get_idx_meta_univ_range(expr const & e) { if (!has_univ_metavar(e)) return 0; unsigned r = 0; for_each(e, [&](expr const & e, unsigned) { if (!has_univ_metavar(e)) return false; if (is_constant(e)) for (level const & l : const_levels(e)) r = updt_idx_meta_univ_range(l, r); if (is_sort(e)) r = updt_idx_meta_univ_range(sort_level(e), r); return true; }); return r; } static int match(lua_State * L) { expr p = to_expr(L, 1); expr t = to_expr(L, 2); if (!closed(t)) throw exception("higher-order pattern matching failure, input term must not contain free variables"); unsigned r1 = get_free_var_range(p); unsigned r2 = get_idx_meta_univ_range(p); buffer> esubst; buffer> lsubst; esubst.resize(r1); lsubst.resize(r2); if (match(p, t, esubst, lsubst, nullptr, nullptr, nullptr)) { lua_newtable(L); int i = 1; for (auto s : esubst) { if (s) push_expr(L, *s); else lua_pushboolean(L, false); lua_rawseti(L, -2, i); i = i + 1; } lua_newtable(L); i = 1; for (auto s : lsubst) { if (s) push_level(L, *s); else lua_pushboolean(L, false); lua_rawseti(L, -2, i); i = i + 1; } } else { lua_pushnil(L); lua_pushnil(L); } return 2; } static int mk_idx_meta_univ(lua_State * L) { return push_level(L, mk_idx_meta_univ(luaL_checkinteger(L, 1))); } void open_match(lua_State * L) { SET_GLOBAL_FUN(mk_idx_meta_univ, "mk_idx_meta_univ"); SET_GLOBAL_FUN(match, "match"); } }