/* 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 "util/sstream.h" #include "util/sexpr/option_declarations.h" #include "kernel/type_checker.h" #include "kernel/abstract.h" #include "kernel/instantiate.h" #include "library/io_state_stream.h" #include "library/scoped_ext.h" #include "library/aliases.h" #include "library/protected.h" #include "library/locals.h" #include "library/coercion.h" #include "library/opaque_hints.h" #include "frontends/lean/util.h" #include "frontends/lean/parser.h" #include "frontends/lean/calc.h" #include "frontends/lean/notation_cmd.h" #include "frontends/lean/inductive_cmd.h" #include "frontends/lean/structure_cmd.h" #include "frontends/lean/begin_end_ext.h" #include "frontends/lean/decl_cmds.h" #include "frontends/lean/class.h" #include "frontends/lean/tactic_hint.h" namespace lean { static name g_raw("raw"); static name g_true("true"); static name g_false("false"); static name g_options("options"); static name g_lparen("("); static name g_rparen(")"); static name g_arrow("->"); static name g_lbracket("["); static name g_rbracket("]"); static name g_declarations("declarations"); static name g_decls("decls"); static name g_hiding("hiding"); static name g_exposing("exposing"); static name g_renaming("renaming"); static name g_as("as"); static name g_module("[module]"); static name g_colon(":"); environment print_cmd(parser & p) { if (p.curr() == scanner::token_kind::String) { p.regular_stream() << p.get_str_val() << endl; p.next(); } else if (p.curr_is_token_or_id(g_raw)) { p.next(); expr e = p.parse_expr(); p.regular_stream() << e << endl; } else if (p.curr_is_token_or_id(g_options)) { p.next(); p.regular_stream() << p.ios().get_options() << endl; } else { throw parser_error("invalid print command", p.pos()); } return p.env(); } environment section_cmd(parser & p) { name n; if (p.curr_is_identifier()) n = p.check_atomic_id_next("invalid section, atomic identifier expected"); p.push_local_scope(); return push_scope(p.env(), p.ios(), scope_kind::Section, n); } environment context_cmd(parser & p) { name n; if (p.curr_is_identifier()) n = p.check_atomic_id_next("invalid context, atomic identifier expected"); bool save_options = true; p.push_local_scope(save_options); return push_scope(p.env(), p.ios(), scope_kind::Context, n); } environment namespace_cmd(parser & p) { auto pos = p.pos(); name n = p.check_atomic_id_next("invalid namespace declaration, atomic identifier expected"); if (is_root_namespace(n)) throw parser_error(sstream() << "invalid namespace name, '" << n << "' is reserved", pos); return push_scope(p.env(), p.ios(), scope_kind::Namespace, n); } environment end_scoped_cmd(parser & p) { if (in_section_or_context(p.env())) p.pop_local_scope(); if (p.curr_is_identifier()) { name n = p.check_atomic_id_next("invalid end of scope, atomic identifier expected"); return pop_scope(p.env(), n); } else { return pop_scope(p.env()); } } environment check_cmd(parser & p) { expr e = p.parse_expr(); list ctx = locals_to_context(e, p); level_param_names ls = to_level_param_names(collect_univ_params(e)); level_param_names new_ls; std::tie(e, new_ls) = p.elaborate_relaxed(e, ctx); auto tc = mk_type_checker_with_hints(p.env(), p.mk_ngen(), true); expr type = tc->check(e, append(ls, new_ls)).first; auto reg = p.regular_stream(); formatter const & fmt = reg.get_formatter(); options opts = p.ios().get_options(); unsigned indent = get_pp_indent(opts); format r = group(fmt(e) + space() + colon() + nest(indent, line() + fmt(type))); reg << mk_pair(r, opts) << endl; return p.env(); } environment exit_cmd(parser &) { throw interrupt_parser(); } environment set_option_cmd(parser & p) { auto id_pos = p.pos(); name id = p.check_id_next("invalid set option, identifier (i.e., option name) expected"); auto decl_it = get_option_declarations().find(id); if (decl_it == get_option_declarations().end()) { // add "lean" prefix name lean_id = name("lean") + id; decl_it = get_option_declarations().find(lean_id); if (decl_it == get_option_declarations().end()) { throw parser_error(sstream() << "unknown option '" << id << "', type 'help options.' for list of available options", id_pos); } else { id = lean_id; } } option_kind k = decl_it->second.kind(); if (k == BoolOption) { if (p.curr_is_token_or_id(g_true)) p.set_option(id, true); else if (p.curr_is_token_or_id(g_false)) p.set_option(id, false); else throw parser_error("invalid Boolean option value, 'true' or 'false' expected", p.pos()); p.next(); } else if (k == StringOption) { if (!p.curr_is_string()) throw parser_error("invalid option value, given option is not a string", p.pos()); p.set_option(id, p.get_str_val()); p.next(); } else if (k == DoubleOption) { p.set_option(id, p.parse_double()); } else if (k == UnsignedOption || k == IntOption) { p.set_option(id, p.parse_small_nat()); } else { throw parser_error("invalid option value, 'true', 'false', string, integer or decimal value expected", p.pos()); } p.updt_options(); return p.env(); } static name parse_class(parser & p) { if (p.curr_is_token(g_lbracket)) { p.next(); name n; if (p.curr_is_identifier()) n = p.get_name_val(); else if (p.curr_is_keyword() || p.curr_is_command()) n = p.get_token_info().value(); else throw parser_error("invalid 'open' command, identifier or symbol expected", p.pos()); p.next(); p.check_token_next(g_rbracket, "invalid 'open' command, ']' expected"); return n; } else { return name(); } } static void check_identifier(parser & p, environment const & env, name const & ns, name const & id) { name full_id = ns + id; if (!env.find(full_id)) throw parser_error(sstream() << "invalid 'open' command, unknown declaration '" << full_id << "'", p.pos()); } // add id as an abbreviation for d static environment add_abbrev(parser & p, environment const & env, name const & id, name const & d) { declaration decl = env.get(d); buffer ls; for (name const & l : decl.get_univ_params()) ls.push_back(mk_param_univ(l)); expr value = mk_constant(d, to_list(ls.begin(), ls.end())); bool opaque = false; name const & ns = get_namespace(env); name full_id = ns + id; p.add_abbrev_index(full_id, d); environment new_env = module::add(env, check(env, mk_definition(env, full_id, decl.get_univ_params(), decl.get_type(), value, opaque))); if (full_id != id) new_env = add_expr_alias_rec(new_env, id, full_id); return new_env; } // open/export [class] id (as id)? (id ...) (renaming id->id id->id) (hiding id ... id) environment open_export_cmd(parser & p, bool open) { environment env = p.env(); while (true) { name cls = parse_class(p); bool decls = cls.is_anonymous() || cls == g_decls || cls == g_declarations; auto pos = p.pos(); name ns = p.check_id_next("invalid 'open/export' command, identifier expected"); optional real_ns = to_valid_namespace_name(env, ns); if (!real_ns) throw parser_error(sstream() << "invalid namespace name '" << ns << "'", pos); ns = *real_ns; name as; if (p.curr_is_token_or_id(g_as)) { p.next(); as = p.check_id_next("invalid 'open/export' command, identifier expected"); } if (open) env = using_namespace(env, p.ios(), ns, cls); else env = export_namespace(env, p.ios(), ns, cls); if (decls) { // Remark: we currently to not allow renaming and hiding of universe levels buffer exceptions; bool found_explicit = false; while (p.curr_is_token(g_lparen)) { p.next(); if (p.curr_is_token_or_id(g_renaming)) { p.next(); while (p.curr_is_identifier()) { name from_id = p.get_name_val(); p.next(); p.check_token_next(g_arrow, "invalid 'open/export' command renaming, '->' expected"); name to_id = p.check_id_next("invalid 'open/export' command renaming, identifier expected"); check_identifier(p, env, ns, from_id); exceptions.push_back(from_id); if (open) env = add_expr_alias(env, as+to_id, ns+from_id); else env = add_abbrev(p, env, as+to_id, ns+from_id); } } else if (p.curr_is_token_or_id(g_hiding)) { p.next(); while (p.curr_is_identifier()) { name id = p.get_name_val(); p.next(); check_identifier(p, env, ns, id); exceptions.push_back(id); } } else if (p.curr_is_identifier()) { found_explicit = true; while (p.curr_is_identifier()) { name id = p.get_name_val(); p.next(); check_identifier(p, env, ns, id); if (open) env = add_expr_alias(env, as+id, ns+id); else env = add_abbrev(p, env, as+id, ns+id); } } else { throw parser_error("invalid 'open/export' command option, identifier, 'hiding' or 'renaming' expected", p.pos()); } if (found_explicit && !exceptions.empty()) throw parser_error("invalid 'open/export' command option, mixing explicit and implicit 'open/export' options", p.pos()); p.check_token_next(g_rparen, "invalid 'open/export' command option, ')' expected"); } if (!found_explicit) { if (open) { env = add_aliases(env, ns, as, exceptions.size(), exceptions.data()); } else { environment new_env = env; env.for_each_declaration([&](declaration const & d) { if (!is_protected(env, d.get_name()) && is_prefix_of(ns, d.get_name()) && !is_exception(d.get_name(), ns, exceptions.size(), exceptions.data())) { name new_id = d.get_name().replace_prefix(ns, as); if (!new_id.is_anonymous()) new_env = add_abbrev(p, new_env, new_id, d.get_name()); } }); env = new_env; } } } if (!p.curr_is_token(g_lbracket) && !p.curr_is_identifier()) break; } return env; } environment open_cmd(parser & p) { return open_export_cmd(p, true); } environment export_cmd(parser & p) { return open_export_cmd(p, false); } environment coercion_cmd(parser & p) { name f = p.check_constant_next("invalid 'coercion' command, constant expected"); if (p.curr_is_token(g_colon)) { p.next(); name C = p.check_constant_next("invalid 'coercion' command, constant expected"); return add_coercion(p.env(), f, C, p.ios()); } else { return add_coercion(p.env(), f, p.ios()); } } environment opaque_hint_cmd(parser & p) { environment env = p.env(); bool found = false; while (p.curr_is_token(g_lparen)) { p.next(); bool hiding; auto pos = p.pos(); if (p.curr_is_token_or_id(g_hiding)) hiding = true; else if (p.curr_is_token_or_id(g_exposing)) hiding = false; else throw parser_error("invalid 'opaque_hint', 'hiding' or 'exposing' expected", pos); p.next(); while (!p.curr_is_token(g_rparen)) { if (p.curr_is_token(g_module)) { found = true; p.next(); env = set_hide_main_opaque(env, hiding); } else { name c = p.check_constant_next("invalid 'opaque_hint', constant expected"); found = true; if (hiding) env = hide_definition(env, c); else env = expose_definition(env, c); } } p.next(); } if (!found) throw exception("invalid empty 'opaque_hint' command"); return env; } environment erase_cache_cmd(parser & p) { name n = p.check_id_next("invalid #erase_cache command, identifier expected"); p.erase_cached_definition(n); return p.env(); } cmd_table init_cmd_table() { cmd_table r; add_cmd(r, cmd_info("open", "create aliases for declarations, and use objects defined in other namespaces", open_cmd)); add_cmd(r, cmd_info("export", "create abbreviations for declarations, and export objects defined in other namespaces", export_cmd)); add_cmd(r, cmd_info("set_option", "set configuration option", set_option_cmd)); add_cmd(r, cmd_info("exit", "exit", exit_cmd)); add_cmd(r, cmd_info("print", "print a string", print_cmd)); add_cmd(r, cmd_info("section", "open a new section", section_cmd)); add_cmd(r, cmd_info("context", "open a new context", context_cmd)); add_cmd(r, cmd_info("namespace", "open a new namespace", namespace_cmd)); add_cmd(r, cmd_info("end", "close the current namespace/section", end_scoped_cmd)); add_cmd(r, cmd_info("check", "type check given expression, and display its type", check_cmd)); add_cmd(r, cmd_info("coercion", "add a new coercion", coercion_cmd)); add_cmd(r, cmd_info("opaque_hint", "add hints for the elaborator/unifier", opaque_hint_cmd)); add_cmd(r, cmd_info("#erase_cache", "erase cached definition (for debugging purposes)", erase_cache_cmd)); register_decl_cmds(r); register_inductive_cmd(r); register_structure_cmd(r); register_notation_cmds(r); register_calc_cmds(r); register_begin_end_cmds(r); register_class_cmds(r); register_tactic_hint_cmd(r); return r; } cmd_table get_builtin_cmds() { static optional r; if (!r) r = init_cmd_table(); return *r; } }