lean2/src/frontends/lean/decl_cmds.cpp

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/*
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 <algorithm>
#include "util/sstream.h"
#include "kernel/type_checker.h"
#include "kernel/abstract.h"
#include "kernel/for_each_fn.h"
#include "library/scoped_ext.h"
#include "library/aliases.h"
#include "library/private.h"
#include "library/protected.h"
#include "library/placeholder.h"
#include "library/locals.h"
#include "library/explicit.h"
#include "library/reducible.h"
#include "library/coercion.h"
#include "frontends/lean/parser.h"
#include "frontends/lean/util.h"
#include "frontends/lean/class.h"
#include "frontends/lean/tokens.h"
namespace lean {
static environment declare_universe(parser & p, environment env, name const & n) {
if (in_section_or_context(env)) {
p.add_local_level(n, mk_param_univ(n));
} else {
name const & ns = get_namespace(env);
name full_n = ns + n;
env = module::add_universe(env, full_n);
if (!ns.is_anonymous())
env = add_level_alias(env, n, full_n);
}
return env;
}
environment universe_cmd(parser & p) {
name n = p.check_id_next("invalid 'universe' command, identifier expected");
return declare_universe(p, p.env(), n);
}
environment universes_cmd(parser & p) {
if (!p.curr_is_identifier())
throw parser_error("invalid 'universes' command, identifier expected", p.pos());
environment env = p.env();
while (p.curr_is_identifier()) {
name n = p.get_name_val();
p.next();
env = declare_universe(p, env, n);
}
return env;
}
bool parse_univ_params(parser & p, buffer<name> & ps) {
if (p.curr_is_token(get_llevel_curly_tk())) {
p.next();
while (!p.curr_is_token(get_rcurly_tk())) {
name l = p.check_id_next("invalid universe parameter, identifier expected");
p.add_local_level(l, mk_param_univ(l));
ps.push_back(l);
}
p.next();
return true;
} else{
return false;
}
}
void update_univ_parameters(buffer<name> & ls_buffer, name_set const & found, parser const & p) {
unsigned old_sz = ls_buffer.size();
found.for_each([&](name const & n) {
if (std::find(ls_buffer.begin(), ls_buffer.begin() + old_sz, n) == ls_buffer.begin() + old_sz)
ls_buffer.push_back(n);
});
std::sort(ls_buffer.begin(), ls_buffer.end(), [&](name const & n1, name const & n2) {
return p.get_local_level_index(n1) < p.get_local_level_index(n2);
});
}
enum class variable_kind { Constant, Parameter, Variable, Axiom };
static void check_parameter_type(parser & p, name const & n, expr const & type, pos_info const & pos) {
for_each(type, [&](expr const & e, unsigned) {
if (is_local(e) && p.is_section_variable(e))
throw parser_error(sstream() << "invalid parameter declaration '" << n << "', it depends on " <<
"variable '" << local_pp_name(e) << "'", pos);
return true;
});
}
static environment declare_var(parser & p, environment env,
name const & n, level_param_names const & ls, expr const & type,
variable_kind k, optional<binder_info> const & _bi, pos_info const & pos) {
binder_info bi;
if (_bi) bi = *_bi;
if (k == variable_kind::Parameter || k == variable_kind::Variable) {
if (k == variable_kind::Parameter) {
check_in_section_or_context(p);
check_parameter_type(p, n, type, pos);
}
if (p.get_local(n))
throw parser_error(sstream() << "invalid parameter/variable declaration, '"
<< n << "' has already been declared", pos);
name u = p.mk_fresh_name();
expr l = p.save_pos(mk_local(u, n, type, bi), pos);
p.add_local_expr(n, l, k == variable_kind::Variable);
return env;
} else {
lean_assert(k == variable_kind::Constant || k == variable_kind::Axiom);
name const & ns = get_namespace(env);
name full_n = ns + n;
if (k == variable_kind::Axiom) {
env = module::add(env, check(env, mk_axiom(full_n, ls, type)));
p.add_decl_index(full_n, pos, get_axiom_tk(), type);
} else {
env = module::add(env, check(env, mk_constant_assumption(full_n, ls, type)));
p.add_decl_index(full_n, pos, get_variable_tk(), type);
}
if (!ns.is_anonymous())
env = add_expr_alias(env, n, full_n);
return env;
}
}
/** \brief If we are in a section, then add the new local levels to it. */
static void update_local_levels(parser & p, level_param_names const & new_ls, bool is_variable) {
for (auto const & l : new_ls)
p.add_local_level(l, mk_param_univ(l), is_variable);
}
optional<binder_info> parse_binder_info(parser & p, variable_kind k) {
optional<binder_info> bi = p.parse_optional_binder_info();
if (bi && k != variable_kind::Parameter && k != variable_kind::Variable)
parser_error("invalid binder annotation, it can only be used to declare variables/parameters", p.pos());
return bi;
}
static void check_variable_kind(parser & p, variable_kind k) {
if (in_section_or_context(p.env())) {
if (k == variable_kind::Axiom || k == variable_kind::Constant)
throw parser_error("invalid declaration, 'constant/axiom' cannot be used in sections/contexts",
p.pos());
} else {
if (k == variable_kind::Parameter)
throw parser_error("invalid declaration, 'parameter/hypothesis/conjecture' "
"can only be used in sections/contexts", p.pos());
}
}
environment variable_cmd_core(parser & p, variable_kind k) {
check_variable_kind(p, k);
auto pos = p.pos();
optional<binder_info> bi = parse_binder_info(p, k);
name n = p.check_id_next("invalid declaration, identifier expected");
buffer<name> ls_buffer;
if (p.curr_is_token(get_llevel_curly_tk()) && (k == variable_kind::Parameter || k == variable_kind::Variable))
throw parser_error("invalid declaration, only constants/axioms can be universe polymorphic", p.pos());
optional<parser::local_scope> scope1;
if (k == variable_kind::Constant || k == variable_kind::Axiom)
scope1.emplace(p);
parse_univ_params(p, ls_buffer);
expr type;
if (!p.curr_is_token(get_colon_tk())) {
buffer<expr> ps;
auto lenv = p.parse_binders(ps);
p.check_token_next(get_colon_tk(), "invalid declaration, ':' expected");
type = p.parse_scoped_expr(ps, lenv);
type = Pi(ps, type, p);
} else {
p.next();
type = p.parse_expr();
}
p.parse_close_binder_info(bi);
level_param_names ls;
if (ls_buffer.empty()) {
ls = to_level_param_names(collect_univ_params(type));
} else {
update_univ_parameters(ls_buffer, collect_univ_params(type), p);
ls = to_list(ls_buffer.begin(), ls_buffer.end());
}
level_param_names new_ls;
list<expr> ctx = p.locals_to_context();
std::tie(type, new_ls) = p.elaborate_type(type, ctx);
if (k == variable_kind::Variable || k == variable_kind::Parameter)
update_local_levels(p, new_ls, k == variable_kind::Variable);
return declare_var(p, p.env(), n, append(ls, new_ls), type, k, bi, pos);
}
environment variable_cmd(parser & p) {
return variable_cmd_core(p, variable_kind::Variable);
}
environment axiom_cmd(parser & p) {
return variable_cmd_core(p, variable_kind::Axiom);
}
environment constant_cmd(parser & p) {
return variable_cmd_core(p, variable_kind::Constant);
}
environment parameter_cmd(parser & p) {
return variable_cmd_core(p, variable_kind::Parameter);
}
static environment variables_cmd_core(parser & p, variable_kind k) {
check_variable_kind(p, k);
auto pos = p.pos();
environment env = p.env();
while (true) {
optional<binder_info> bi = parse_binder_info(p, k);
buffer<name> ids;
while (!p.curr_is_token(get_colon_tk())) {
name id = p.check_id_next("invalid parameters declaration, identifier expected");
ids.push_back(id);
}
p.next();
optional<parser::local_scope> scope1;
if (k == variable_kind::Constant || k == variable_kind::Axiom)
scope1.emplace(p);
expr type = p.parse_expr();
p.parse_close_binder_info(bi);
level_param_names ls = to_level_param_names(collect_univ_params(type));
list<expr> ctx = p.locals_to_context();
for (auto id : ids) {
// Hack: to make sure we get different universe parameters for each parameter.
// Alternative: elaborate once and copy types replacing universes in new_ls.
level_param_names new_ls;
expr new_type;
std::tie(new_type, new_ls) = p.elaborate_type(type, ctx);
if (k == variable_kind::Variable || k == variable_kind::Parameter)
update_local_levels(p, new_ls, k == variable_kind::Variable);
new_ls = append(ls, new_ls);
env = declare_var(p, env, id, new_ls, new_type, k, bi, pos);
}
if (!p.curr_is_token(get_lparen_tk()) && !p.curr_is_token(get_lcurly_tk()) &&
!p.curr_is_token(get_ldcurly_tk()) && !p.curr_is_token(get_lbracket_tk()))
break;
}
return env;
}
static environment variables_cmd(parser & p) {
return variables_cmd_core(p, variable_kind::Variable);
}
static environment parameters_cmd(parser & p) {
return variables_cmd_core(p, variable_kind::Parameter);
}
static environment constants_cmd(parser & p) {
return variables_cmd_core(p, variable_kind::Constant);
}
struct decl_modifiers {
bool m_is_instance;
bool m_is_coercion;
bool m_is_reducible;
optional<unsigned> m_priority;
decl_modifiers():m_priority() {
m_is_instance = false;
m_is_coercion = false;
m_is_reducible = false;
}
void parse(parser & p) {
while (true) {
auto pos = p.pos();
if (p.curr_is_token(get_instance_tk())) {
m_is_instance = true;
p.next();
} else if (p.curr_is_token(get_coercion_tk())) {
m_is_coercion = true;
p.next();
} else if (p.curr_is_token(get_reducible_tk())) {
m_is_reducible = true;
p.next();
} else if (auto it = parse_instance_priority(p)) {
m_priority = *it;
if (!m_is_instance)
throw parser_error("invalid '[priority]' occurrence, declaration must be marked as an '[instance]'", pos);
} else {
break;
}
}
}
};
static void check_end_of_theorem(parser const & p) {
if (!p.curr_is_command_like())
throw parser_error("':=', '.', command, script, or end-of-file expected", p.pos());
}
static void erase_local_binder_info(buffer<expr> & ps) {
for (expr & p : ps)
p = update_local(p, binder_info());
}
environment definition_cmd_core(parser & p, bool is_theorem, bool is_opaque, bool is_private, bool is_protected) {
lean_assert(!(is_theorem && !is_opaque));
lean_assert(!(is_private && is_protected));
auto n_pos = p.pos();
unsigned start_line = n_pos.first;
name n = p.check_id_next("invalid declaration, identifier expected");
decl_modifiers modifiers;
name real_n; // real name for this declaration
buffer<name> ls_buffer;
expr type, value;
level_param_names ls;
{
// Parse universe parameters
parser::local_scope scope1(p);
parse_univ_params(p, ls_buffer);
// Parse modifiers
modifiers.parse(p);
if (p.curr_is_token(get_assign_tk())) {
auto pos = p.pos();
p.next();
type = p.save_pos(mk_expr_placeholder(), pos);
value = p.parse_expr();
} else if (p.curr_is_token(get_colon_tk())) {
p.next();
auto pos = p.pos();
type = p.parse_expr();
if (is_theorem && !p.curr_is_token(get_assign_tk())) {
check_end_of_theorem(p);
value = mk_expr_placeholder();
} else {
p.check_token_next(get_assign_tk(), "invalid declaration, ':=' expected");
value = p.save_pos(p.parse_expr(), pos);
}
} else {
buffer<expr> ps;
optional<local_environment> lenv;
bool last_block_delimited = false;
lenv = p.parse_binders(ps, last_block_delimited);
auto pos = p.pos();
if (p.curr_is_token(get_colon_tk())) {
p.next();
type = p.parse_scoped_expr(ps, *lenv);
if (is_theorem && !p.curr_is_token(get_assign_tk())) {
check_end_of_theorem(p);
value = p.save_pos(mk_expr_placeholder(), pos);
} else {
p.check_token_next(get_assign_tk(), "invalid declaration, ':=' expected");
value = p.parse_scoped_expr(ps, *lenv);
}
} else {
if (!last_block_delimited && !ps.empty() &&
!is_placeholder(mlocal_type(ps.back()))) {
throw parser_error("invalid declaration, ambiguous parameter declaration, "
"(solution: put parentheses around parameters)",
pos);
}
type = p.save_pos(mk_expr_placeholder(), p.pos());
p.check_token_next(get_assign_tk(), "invalid declaration, ':=' expected");
value = p.parse_scoped_expr(ps, *lenv);
}
type = Pi(ps, type, p);
erase_local_binder_info(ps);
value = Fun(ps, value, p);
}
}
unsigned end_line = p.pos().first;
if (p.used_sorry())
p.declare_sorry();
environment env = p.env();
if (is_private) {
auto env_n = add_private_name(env, n, optional<unsigned>(hash(p.pos().first, p.pos().second)));
env = env_n.first;
real_n = env_n.second;
} else {
name const & ns = get_namespace(env);
real_n = ns + n;
}
if (p.has_locals()) {
buffer<expr> section_ps;
collect_section_locals(type, value, p, section_ps);
type = Pi_as_is(section_ps, type, p);
buffer<expr> section_value_ps;
section_value_ps.append(section_ps);
erase_local_binder_info(section_value_ps);
value = Fun_as_is(section_value_ps, value, p);
update_univ_parameters(ls_buffer, collect_univ_params(value, collect_univ_params(type)), p);
ls = to_list(ls_buffer.begin(), ls_buffer.end());
levels section_ls = collect_section_nonvar_levels(p, ls);
remove_section_variables(p, section_ps);
if (!section_ps.empty()) {
expr ref = mk_section_local_ref(real_n, section_ls, section_ps);
p.add_local_expr(n, ref);
} else if (section_ls) {
expr ref = mk_constant(real_n, section_ls);
p.add_local_expr(n, ref);
}
} else {
update_univ_parameters(ls_buffer, collect_univ_params(value, collect_univ_params(type)), p);
ls = to_list(ls_buffer.begin(), ls_buffer.end());
}
expr pre_type = type;
expr pre_value = value;
level_param_names new_ls;
bool found_cached = false;
if (p.are_info_lines_valid(start_line, end_line)) {
// we only use the cache if the information associated with the line is valid
if (auto it = p.find_cached_definition(real_n, pre_type, pre_value)) {
optional<certified_declaration> cd;
try {
level_param_names c_ls; expr c_type, c_value;
std::tie(c_ls, c_type, c_value) = *it;
if (is_theorem)
cd = check(env, mk_theorem(real_n, c_ls, c_type, c_value));
else
cd = check(env, mk_definition(env, real_n, c_ls, c_type, c_value, is_opaque));
if (!is_private)
p.add_decl_index(real_n, n_pos, p.get_cmd_token(), c_type);
env = module::add(env, *cd);
found_cached = true;
} catch (exception&) {}
}
}
if (!found_cached) {
if (is_theorem) {
auto type_pos = p.pos_of(type);
bool clear_pre_info = false; // we don't want to clear pre_info data until we process the proof.
std::tie(type, new_ls) = p.elaborate_type(type, list<expr>(), clear_pre_info);
check_no_metavar(env, real_n, type, true);
ls = append(ls, new_ls);
expr type_as_is = p.save_pos(mk_as_is(type), type_pos);
if (!p.collecting_info() && p.num_threads() > 1) {
// add as axiom, and create a task to prove the theorem
p.add_delayed_theorem(env, real_n, ls, type_as_is, value);
env = module::add(env, check(env, mk_axiom(real_n, ls, type)));
} else {
std::tie(type, value, new_ls) = p.elaborate_definition(n, type_as_is, value, is_opaque);
new_ls = append(ls, new_ls);
env = module::add(env, check(env, mk_theorem(real_n, new_ls, type, value)));
p.cache_definition(real_n, pre_type, pre_value, new_ls, type, value);
}
} else {
std::tie(type, value, new_ls) = p.elaborate_definition(n, type, value, is_opaque);
new_ls = append(ls, new_ls);
env = module::add(env, check(env, mk_definition(env, real_n, new_ls, type, value, is_opaque)));
p.cache_definition(real_n, pre_type, pre_value, new_ls, type, value);
}
if (!is_private)
p.add_decl_index(real_n, n_pos, p.get_cmd_token(), type);
}
if (real_n != n)
env = add_expr_alias_rec(env, n, real_n);
if (modifiers.m_is_instance) {
bool persistent = true;
if (modifiers.m_priority) {
#if defined(__GNUC__) && !defined(__CLANG__)
#pragma GCC diagnostic ignored "-Wmaybe-uninitialized"
#endif
env = add_instance(env, real_n, *modifiers.m_priority, persistent);
} else {
env = add_instance(env, real_n, persistent);
}
}
if (modifiers.m_is_coercion)
env = add_coercion(env, real_n, p.ios());
if (is_protected)
env = add_protected(env, real_n);
if (modifiers.m_is_reducible)
env = set_reducible(env, real_n, reducible_status::On);
return env;
}
environment definition_cmd(parser & p) {
return definition_cmd_core(p, false, false, false, false);
}
environment opaque_definition_cmd(parser & p) {
p.check_token_next(get_definition_tk(), "invalid 'opaque' definition, 'definition' expected");
return definition_cmd_core(p, false, true, false, false);
}
environment theorem_cmd(parser & p) {
return definition_cmd_core(p, true, true, false, false);
}
environment private_definition_cmd(parser & p) {
bool is_theorem = false;
bool is_opaque = false;
if (p.curr_is_token_or_id(get_opaque_tk())) {
is_opaque = true;
p.next();
p.check_token_next(get_definition_tk(), "invalid 'private' definition, 'definition' expected");
} else if (p.curr_is_token_or_id(get_definition_tk())) {
p.next();
} else if (p.curr_is_token_or_id(get_theorem_tk())) {
p.next();
is_theorem = true;
is_opaque = true;
} else {
throw parser_error("invalid 'private' definition/theorem, 'definition' or 'theorem' expected", p.pos());
}
return definition_cmd_core(p, is_theorem, is_opaque, true, false);
}
environment protected_definition_cmd(parser & p) {
bool is_theorem = false;
bool is_opaque = false;
if (p.curr_is_token_or_id(get_opaque_tk())) {
is_opaque = true;
p.next();
p.check_token_next(get_definition_tk(), "invalid 'protected' definition, 'definition' expected");
} else if (p.curr_is_token_or_id(get_definition_tk())) {
p.next();
} else if (p.curr_is_token_or_id(get_theorem_tk())) {
p.next();
is_theorem = true;
is_opaque = true;
} else {
throw parser_error("invalid 'protected' definition/theorem, 'definition' or 'theorem' expected", p.pos());
}
return definition_cmd_core(p, is_theorem, is_opaque, false, true);
}
environment include_cmd_core(parser & p, bool include) {
if (!p.curr_is_identifier())
throw parser_error(sstream() << "invalid include/omit command, identifier expected", p.pos());
while (p.curr_is_identifier()) {
auto pos = p.pos();
name n = p.get_name_val();
p.next();
if (!p.get_local(n))
throw parser_error(sstream() << "invalid include/omit command, '" << n << "' is not a parameter/variable", pos);
if (include) {
if (p.is_include_variable(n))
throw parser_error(sstream() << "invalid include command, '" << n << "' has already been included", pos);
p.include_variable(n);
} else {
if (!p.is_include_variable(n))
throw parser_error(sstream() << "invalid omit command, '" << n << "' has not been included", pos);
p.omit_variable(n);
}
}
return p.env();
}
environment include_cmd(parser & p) {
return include_cmd_core(p, true);
}
environment omit_cmd(parser & p) {
return include_cmd_core(p, false);
}
void register_decl_cmds(cmd_table & r) {
add_cmd(r, cmd_info("universe", "declare a universe level", universe_cmd));
add_cmd(r, cmd_info("universes", "declare universe levels", universes_cmd));
add_cmd(r, cmd_info("variable", "declare a new variable", variable_cmd));
add_cmd(r, cmd_info("parameter", "declare a new parameter", parameter_cmd));
add_cmd(r, cmd_info("constant", "declare a new constant (aka top-level variable)", constant_cmd));
add_cmd(r, cmd_info("axiom", "declare a new axiom", axiom_cmd));
add_cmd(r, cmd_info("variables", "declare new variables", variables_cmd));
add_cmd(r, cmd_info("parameters", "declare new parameters", parameters_cmd));
add_cmd(r, cmd_info("constants", "declare new constants (aka top-level variables)", constants_cmd));
add_cmd(r, cmd_info("definition", "add new definition", definition_cmd));
add_cmd(r, cmd_info("opaque", "add new opaque definition", opaque_definition_cmd));
add_cmd(r, cmd_info("private", "add new private definition/theorem", private_definition_cmd));
add_cmd(r, cmd_info("protected", "add new protected definition/theorem", protected_definition_cmd));
add_cmd(r, cmd_info("theorem", "add new theorem", theorem_cmd));
add_cmd(r, cmd_info("include", "force section parameter/variable to be included", include_cmd));
add_cmd(r, cmd_info("omit", "undo 'include' command", omit_cmd));
}
}