/* Copyright (c) 2013 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include "kernel/builtin.h" #include "library/basic_thms.h" #include "library/arith/arith.h" #include "library/cast/cast.h" #include "frontends/lean/frontend.h" namespace lean { void add_alias(environment const & env, name const & n, name const & m) { object const & obj = env->get_object(n); env->add_definition(m, obj.get_type(), mk_constant(n)); } /** \brief Initialize builtin notation. */ void init_builtin_notation(environment const & env, io_state & ios) { if (!env->mark_builtin_imported("lean_notation")) return; add_infix(env, ios, "=", 50, mk_homo_eq_fn()); mark_implicit_arguments(env, mk_homo_eq_fn(), 1); mark_implicit_arguments(env, mk_if_fn(), 1); add_prefix(env, ios, "\u00ac", 40, mk_not_fn()); // "¬" add_infixr(env, ios, "&&", 35, mk_and_fn()); // "&&" add_infixr(env, ios, "/\\", 35, mk_and_fn()); // "/\" add_infixr(env, ios, "\u2227", 35, mk_and_fn()); // "∧" add_infixr(env, ios, "||", 30, mk_or_fn()); // "||" add_infixr(env, ios, "\\/", 30, mk_or_fn()); // "\/" add_infixr(env, ios, "\u2228", 30, mk_or_fn()); // "∨" add_infixr(env, ios, "=>", 25, mk_implies_fn()); // "=>" add_infixr(env, ios, "\u21D2", 25, mk_implies_fn()); // "⇒" add_infixr(env, ios, "<=>", 25, mk_iff_fn()); // "<=>" add_infixr(env, ios, "\u21D4", 25, mk_iff_fn()); // "⇔" add_infixl(env, ios, "+", 65, mk_nat_add_fn()); add_infixl(env, ios, "-", 65, mk_nat_sub_fn()); add_prefix(env, ios, "-", 75, mk_nat_neg_fn()); add_infixl(env, ios, "*", 70, mk_nat_mul_fn()); add_infix(env, ios, "<=", 50, mk_nat_le_fn()); add_infix(env, ios, "\u2264", 50, mk_nat_le_fn()); // ≤ add_infix(env, ios, ">=", 50, mk_nat_ge_fn()); add_infix(env, ios, "\u2265", 50, mk_nat_ge_fn()); // ≥ add_infix(env, ios, "<", 50, mk_nat_lt_fn()); add_infix(env, ios, ">", 50, mk_nat_gt_fn()); add_mixfixc(env, ios, {"|", "|"}, 55, mk_nat_id_fn()); // absolute value for naturals is the identity function add_infixl(env, ios, "+", 65, mk_int_add_fn()); add_infixl(env, ios, "-", 65, mk_int_sub_fn()); add_prefix(env, ios, "-", 75, mk_int_neg_fn()); add_infixl(env, ios, "*", 70, mk_int_mul_fn()); add_infixl(env, ios, "div", 70, mk_int_div_fn()); add_infixl(env, ios, "mod", 70, mk_int_mod_fn()); add_infix(env, ios, "|", 50, mk_int_divides_fn()); add_mixfixc(env, ios, {"|", "|"}, 55, mk_int_abs_fn()); add_infix(env, ios, "<=", 50, mk_int_le_fn()); add_infix(env, ios, "\u2264", 50, mk_int_le_fn()); // ≤ add_infix(env, ios, ">=", 50, mk_int_ge_fn()); add_infix(env, ios, "\u2265", 50, mk_int_ge_fn()); // ≥ add_infix(env, ios, "<", 50, mk_int_lt_fn()); add_infix(env, ios, ">", 50, mk_int_gt_fn()); add_infixl(env, ios, "+", 65, mk_real_add_fn()); add_infixl(env, ios, "-", 65, mk_real_sub_fn()); add_prefix(env, ios, "-", 75, mk_real_neg_fn()); add_infixl(env, ios, "*", 70, mk_real_mul_fn()); add_infixl(env, ios, "/", 70, mk_real_div_fn()); add_mixfixc(env, ios, {"|", "|"}, 55, mk_real_abs_fn()); add_infix(env, ios, "<=", 50, mk_real_le_fn()); add_infix(env, ios, "\u2264", 50, mk_real_le_fn()); // ≤ add_infix(env, ios, ">=", 50, mk_real_ge_fn()); add_infix(env, ios, "\u2265", 50, mk_real_ge_fn()); // ≥ add_infix(env, ios, "<", 50, mk_real_lt_fn()); add_infix(env, ios, ">", 50, mk_real_gt_fn()); add_coercion(env, mk_nat_to_int_fn()); add_coercion(env, mk_int_to_real_fn()); add_coercion(env, mk_nat_to_real_fn()); // implicit arguments for builtin axioms mark_implicit_arguments(env, mk_cast_fn(), 2); mark_implicit_arguments(env, mk_mp_fn(), 2); mark_implicit_arguments(env, mk_discharge_fn(), 2); mark_implicit_arguments(env, mk_refl_fn(), 1); mark_implicit_arguments(env, mk_subst_fn(), 4); add_alias(env, "Subst", "SubstP"); mark_implicit_arguments(env, "SubstP", 3); mark_implicit_arguments(env, mk_trans_ext_fn(), 6); mark_implicit_arguments(env, mk_eta_fn(), 2); mark_implicit_arguments(env, mk_abst_fn(), 4); mark_implicit_arguments(env, mk_imp_antisym_fn(), 2); mark_implicit_arguments(env, mk_dom_inj_fn(), 4); mark_implicit_arguments(env, mk_ran_inj_fn(), 4); // implicit arguments for basic theorems mark_implicit_arguments(env, mk_absurd_fn(), 1); mark_implicit_arguments(env, mk_double_neg_elim_fn(), 1); mark_implicit_arguments(env, mk_mt_fn(), 2); mark_implicit_arguments(env, mk_contrapos_fn(), 2); mark_implicit_arguments(env, mk_eq_mp_fn(), 2); mark_implicit_arguments(env, mk_not_imp1_fn(), 2); mark_implicit_arguments(env, mk_not_imp2_fn(), 2); mark_implicit_arguments(env, mk_conj_fn(), 2); mark_implicit_arguments(env, mk_conjunct1_fn(), 2); mark_implicit_arguments(env, mk_conjunct2_fn(), 2); mark_implicit_arguments(env, mk_disj1_fn(), 1); mark_implicit_arguments(env, mk_disj2_fn(), 1); mark_implicit_arguments(env, mk_disj_cases_fn(), 3); mark_implicit_arguments(env, mk_refute_fn(), 1); mark_implicit_arguments(env, mk_symm_fn(), 3); mark_implicit_arguments(env, mk_trans_fn(), 4); mark_implicit_arguments(env, mk_eqt_elim_fn(), 1); mark_implicit_arguments(env, mk_eqt_intro_fn(), 1); mark_implicit_arguments(env, mk_congr1_fn(), 4); mark_implicit_arguments(env, mk_congr2_fn(), 4); mark_implicit_arguments(env, mk_congr_fn(), 6); mark_implicit_arguments(env, mk_forall_elim_fn(), 2); mark_implicit_arguments(env, mk_forall_intro_fn(), 2); mark_implicit_arguments(env, mk_exists_elim_fn(), 3); mark_implicit_arguments(env, mk_exists_intro_fn(), 2); } }