lean2/src/frontends/lean/decl_attributes.cpp

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/*
Copyright (c) 2015 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Leonardo de Moura
*/
#include "library/replace_visitor.h"
#include "library/normalize.h"
#include "library/reducible.h"
#include "library/class.h"
#include "library/relation_manager.h"
#include "library/user_recursors.h"
#include "library/coercion.h"
#include "library/simplifier/rewrite_rule_set.h"
#include "frontends/lean/decl_attributes.h"
#include "frontends/lean/parser.h"
#include "frontends/lean/tokens.h"
#include "frontends/lean/util.h"
namespace lean {
decl_attributes::decl_attributes(bool is_abbrev, bool persistent):
m_priority() {
m_is_abbrev = is_abbrev;
m_persistent = persistent;
m_is_instance = false;
m_is_trans_instance = false;
m_is_coercion = false;
m_is_reducible = is_abbrev;
m_is_irreducible = false;
m_is_semireducible = false;
m_is_quasireducible = false;
m_is_class = false;
m_is_parsing_only = false;
m_has_multiple_instances = false;
m_unfold_f_hint = false;
m_constructor_hint = false;
m_symm = false;
m_trans = false;
m_refl = false;
m_subst = false;
m_recursor = false;
m_rewrite = false;
}
void decl_attributes::parse(buffer<name> const & ns, parser & p) {
while (true) {
auto pos = p.pos();
if (p.curr_is_token(get_instance_tk())) {
m_is_instance = true;
if (m_is_trans_instance)
throw parser_error("invalid '[instance]' attribute, '[trans-instance]' was already provided", pos);
p.next();
} else if (p.curr_is_token(get_trans_inst_tk())) {
m_is_trans_instance = true;
if (m_is_instance)
throw parser_error("invalid '[trans-instance]' attribute, '[instance]' was already provided", pos);
p.next();
} else if (p.curr_is_token(get_coercion_tk())) {
p.next();
m_is_coercion = true;
} else if (p.curr_is_token(get_reducible_tk())) {
if (m_is_irreducible || m_is_semireducible || m_is_quasireducible)
throw parser_error("invalid '[reducible]' attribute, '[irreducible]', '[quasireducible]' or '[semireducible]' was already provided", pos);
m_is_reducible = true;
p.next();
} else if (p.curr_is_token(get_irreducible_tk())) {
if (m_is_reducible || m_is_semireducible || m_is_quasireducible)
throw parser_error("invalid '[irreducible]' attribute, '[reducible]', '[quasireducible]' or '[semireducible]' was already provided", pos);
m_is_irreducible = true;
p.next();
} else if (p.curr_is_token(get_semireducible_tk())) {
if (m_is_reducible || m_is_irreducible || m_is_quasireducible)
throw parser_error("invalid '[irreducible]' attribute, '[reducible]', '[quasireducible]' or '[irreducible]' was already provided", pos);
m_is_semireducible = true;
p.next();
} else if (p.curr_is_token(get_quasireducible_tk())) {
if (m_is_reducible || m_is_irreducible || m_is_semireducible)
throw parser_error("invalid '[quasireducible]' attribute, '[reducible]', '[semireducible]' or '[irreducible]' was already provided", pos);
m_is_quasireducible = true;
p.next();
} else if (p.curr_is_token(get_class_tk())) {
m_is_class = true;
p.next();
} else if (p.curr_is_token(get_multiple_instances_tk())) {
m_has_multiple_instances = true;
p.next();
} else if (auto it = parse_priority(p)) {
m_priority = *it;
if (!m_is_instance) {
if (ns.empty()) {
throw parser_error("invalid '[priority]' attribute, declaration must be marked as an '[instance]'", pos);
} else {
for (name const & n : ns) {
if (!is_instance(p.env(), n))
throw parser_error(sstream() << "invalid '[priority]' attribute, declaration '" << n
<< "' must be marked as an '[instance]'", pos);
}
m_is_instance = true;
}
}
} else if (p.curr_is_token(get_parsing_only_tk())) {
if (!m_is_abbrev)
throw parser_error("invalid '[parsing-only]' attribute, only abbreviations can be "
"marked as '[parsing-only]'", pos);
m_is_parsing_only = true;
p.next();
} else if (p.curr_is_token(get_unfold_f_tk())) {
p.next();
m_unfold_f_hint = true;
} else if (p.curr_is_token(get_constructor_tk())) {
p.next();
m_constructor_hint = true;
} else if (p.curr_is_token(get_unfold_c_tk())) {
p.next();
unsigned r = p.parse_small_nat();
if (r == 0)
throw parser_error("invalid '[unfold-c]' attribute, value must be greater than 0", pos);
m_unfold_c_hint = r - 1;
p.check_token_next(get_rbracket_tk(), "invalid 'unfold-c', ']' expected");
} else if (p.curr_is_token(get_symm_tk())) {
p.next();
m_symm = true;
} else if (p.curr_is_token(get_refl_tk())) {
p.next();
m_refl = true;
} else if (p.curr_is_token(get_trans_tk())) {
p.next();
m_trans = true;
} else if (p.curr_is_token(get_subst_tk())) {
p.next();
m_subst = true;
} else if (p.curr_is_token(get_rewrite_attr_tk())) {
p.next();
m_rewrite = true;
} else if (p.curr_is_token(get_recursor_tk())) {
p.next();
if (!p.curr_is_token(get_rbracket_tk())) {
unsigned r = p.parse_small_nat();
if (r == 0)
throw parser_error("invalid '[recursor]' attribute, value must be greater than 0", pos);
m_recursor_major_pos = r - 1;
}
p.check_token_next(get_rbracket_tk(), "invalid 'recursor', ']' expected");
m_recursor = true;
} else {
break;
}
}
}
void decl_attributes::parse(name const & n, parser & p) {
buffer<name> ns;
ns.push_back(n);
parse(ns, p);
}
void decl_attributes::parse(parser & p) {
buffer<name> ns;
parse(ns, p);
}
environment decl_attributes::apply(environment env, io_state const & ios, name const & d) const {
if (m_is_instance) {
if (m_priority) {
#if defined(__GNUC__) && !defined(__CLANG__)
#pragma GCC diagnostic ignored "-Wmaybe-uninitialized"
#endif
env = add_instance(env, d, *m_priority, m_persistent);
} else {
env = add_instance(env, d, m_persistent);
}
}
if (m_is_trans_instance) {
if (m_priority) {
#if defined(__GNUC__) && !defined(__CLANG__)
#pragma GCC diagnostic ignored "-Wmaybe-uninitialized"
#endif
env = add_trans_instance(env, d, *m_priority, m_persistent);
} else {
env = add_trans_instance(env, d, m_persistent);
}
}
if (m_is_coercion)
env = add_coercion(env, ios, d, m_persistent);
auto decl = env.find(d);
if (decl && decl->is_definition()) {
if (m_is_reducible)
env = set_reducible(env, d, reducible_status::Reducible, m_persistent);
if (m_is_irreducible)
env = set_reducible(env, d, reducible_status::Irreducible, m_persistent);
if (m_is_semireducible)
env = set_reducible(env, d, reducible_status::Semireducible, m_persistent);
if (m_is_quasireducible)
env = set_reducible(env, d, reducible_status::Quasireducible, m_persistent);
if (m_unfold_c_hint)
env = add_unfold_c_hint(env, d, *m_unfold_c_hint, m_persistent);
if (m_unfold_f_hint)
env = add_unfold_f_hint(env, d, m_persistent);
}
if (m_constructor_hint)
env = add_constructor_hint(env, d, m_persistent);
if (m_symm)
env = add_symm(env, d, m_persistent);
if (m_refl)
env = add_refl(env, d, m_persistent);
if (m_trans)
env = add_trans(env, d, m_persistent);
if (m_subst)
env = add_subst(env, d, m_persistent);
if (m_recursor)
env = add_user_recursor(env, d, m_recursor_major_pos, m_persistent);
if (m_is_class)
env = add_class(env, d, m_persistent);
if (m_rewrite)
env = add_rewrite_rule(env, d, m_persistent);
if (m_has_multiple_instances)
env = mark_multiple_instances(env, d, m_persistent);
return env;
}
void decl_attributes::write(serializer & s) const {
s << m_is_abbrev << m_persistent << m_is_instance << m_is_trans_instance << m_is_coercion
<< m_is_reducible << m_is_irreducible << m_is_semireducible << m_is_quasireducible
<< m_is_class << m_is_parsing_only << m_has_multiple_instances << m_unfold_f_hint
<< m_constructor_hint << m_symm << m_trans << m_refl << m_subst << m_recursor
<< m_rewrite << m_recursor_major_pos << m_priority << m_unfold_c_hint;
}
void decl_attributes::read(deserializer & d) {
d >> m_is_abbrev >> m_persistent >> m_is_instance >> m_is_trans_instance >> m_is_coercion
>> m_is_reducible >> m_is_irreducible >> m_is_semireducible >> m_is_quasireducible
>> m_is_class >> m_is_parsing_only >> m_has_multiple_instances >> m_unfold_f_hint
>> m_constructor_hint >> m_symm >> m_trans >> m_refl >> m_subst >> m_recursor
>> m_rewrite >> m_recursor_major_pos >> m_priority >> m_unfold_c_hint;
}
}