feat(frontends/lean/builtin_cmds): remove workaround for getting nice metavariable names in the check command
We don't need it anymore after previous commit 2a16050
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parent
2a160508c3
commit
dcd7e53fa7
9 changed files with 24 additions and 41 deletions
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@ -205,28 +205,6 @@ environment end_scoped_cmd(parser & p) {
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/** \brief Auxiliary function for check/eval */
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static std::tuple<expr, level_param_names> parse_local_expr(parser & p) {
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expr e = p.parse_expr();
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environment const & env = p.env();
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if (is_constant(e) && !const_levels(e)) {
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// manually elaborate simple constant using nicer names for meta-variables
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if (auto decl = env.find(const_name(e))) {
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levels ls = param_names_to_levels(decl->get_univ_params());
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e = mk_constant(const_name(e), ls);
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expr type = instantiate_type_univ_params(*decl, ls);
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while (true) {
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if (!is_pi(type))
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break;
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if (is_explicit(binding_info(type)))
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break;
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std::string q("?");
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q += binding_name(type).to_string();
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name n = pick_unused_name(binding_body(type), name(q.c_str()));
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expr m = mk_local(n, binding_domain(type));
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type = instantiate(binding_body(type), m);
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e = mk_app(e, m);
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}
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return std::make_tuple(e, decl->get_univ_params());
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}
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}
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list<expr> ctx = p.locals_to_context();
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level_param_names new_ls;
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std::tie(e, new_ls) = p.elaborate_relaxed(e, ctx);
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@ -88,7 +88,7 @@ struct elaborator::choice_expr_elaborator : public choice_iterator {
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}
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};
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elaborator::elaborator(elaborator_context & ctx, name_generator const & ngen):
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elaborator::elaborator(elaborator_context & ctx, name_generator const & ngen, bool nice_mvar_names):
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m_ctx(ctx),
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m_ngen(ngen),
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m_context(),
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@ -100,6 +100,7 @@ elaborator::elaborator(elaborator_context & ctx, name_generator const & ngen):
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m_no_info = false;
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m_tc[0] = mk_type_checker(ctx.m_env, m_ngen.mk_child(), false);
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m_tc[1] = mk_type_checker(ctx.m_env, m_ngen.mk_child(), true);
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m_nice_mvar_names = nice_mvar_names;
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}
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expr elaborator::mk_local(name const & n, expr const & t, binder_info const & bi) {
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@ -218,7 +219,7 @@ void elaborator::copy_info_to_manager(substitution s) {
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}
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optional<name> elaborator::mk_mvar_suffix(expr const & b) {
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if (!infom())
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if (!infom() && !m_nice_mvar_names)
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return optional<name>();
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else
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return optional<name>(binding_name(b));
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@ -1270,8 +1271,8 @@ pair<expr, constraints> elaborator::elaborate_nested(list<expr> const & ctx, exp
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static name * g_tmp_prefix = nullptr;
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std::tuple<expr, level_param_names> elaborate(elaborator_context & env, list<expr> const & ctx, expr const & e,
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bool relax_main_opaque, bool ensure_type) {
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return elaborator(env, name_generator(*g_tmp_prefix))(ctx, e, ensure_type, relax_main_opaque);
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bool relax_main_opaque, bool ensure_type, bool nice_mvar_names) {
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return elaborator(env, name_generator(*g_tmp_prefix), nice_mvar_names)(ctx, e, ensure_type, relax_main_opaque);
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}
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std::tuple<expr, expr, level_param_names> elaborate(elaborator_context & env, name const & n, expr const & t, expr const & v,
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@ -56,6 +56,9 @@ class elaborator : public coercion_info_manager {
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info_manager m_pre_info_data;
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bool m_has_sorry;
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unifier_config m_unifier_config;
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// If m_nice_mvar_names is true, we append (when possible) a more informative name for a metavariable.
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// That is, whenever a metavariables comes from a binding, we add the binding name as a suffix
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bool m_nice_mvar_names;
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struct choice_expr_elaborator;
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environment const & env() const { return m_ctx.m_env; }
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@ -147,14 +150,14 @@ class elaborator : public coercion_info_manager {
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pair<expr, constraints> elaborate_nested(list<expr> const & g, expr const & e,
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bool relax, bool use_tactic_hints);
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public:
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elaborator(elaborator_context & ctx, name_generator const & ngen);
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elaborator(elaborator_context & ctx, name_generator const & ngen, bool nice_mvar_names = false);
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std::tuple<expr, level_param_names> operator()(list<expr> const & ctx, expr const & e, bool _ensure_type,
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bool relax_main_opaque);
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std::tuple<expr, expr, level_param_names> operator()(expr const & t, expr const & v, name const & n, bool is_opaque);
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};
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std::tuple<expr, level_param_names> elaborate(elaborator_context & env, list<expr> const & ctx, expr const & e,
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bool relax_main_opaque, bool ensure_type = false);
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bool relax_main_opaque, bool ensure_type = false, bool nice_mvar_names = false);
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std::tuple<expr, expr, level_param_names> elaborate(elaborator_context & env, name const & n, expr const & t, expr const & v,
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bool is_opaque);
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@ -634,9 +634,10 @@ std::tuple<expr, level_param_names> parser::elaborate_relaxed(expr const & e, li
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bool relax = true;
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bool check_unassigned = false;
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bool ensure_type = false;
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bool nice_mvar_names = true;
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parser_pos_provider pp = get_pos_provider();
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elaborator_context env = mk_elaborator_context(pp, check_unassigned);
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auto r = ::lean::elaborate(env, ctx, e, relax, ensure_type);
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auto r = ::lean::elaborate(env, ctx, e, relax, ensure_type, nice_mvar_names);
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m_pre_info_manager.clear();
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return r;
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}
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@ -1,4 +1,4 @@
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and.intro : ?a → ?b → ?a ∧ ?b
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or.elim : ?a ∨ ?b → (?a → ?c) → (?b → ?c) → ?c
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eq : ?A → ?A → Prop
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eq.rec : ?C ?a → (Π {a : ?A}, ?a = a → ?C a)
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eq.rec : ?C → (Π {a : ?A}, ?a = a → ?C)
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@ -1 +1 @@
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eq.rec_on : ?a = ?a_1 → ?C ?a → ?C ?a_1
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eq.rec_on : ?a = ?a_1 → ?C → ?C
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@ -1,7 +1,7 @@
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λ {A : Type} (B : Type) (a : A) (b : B), a : Π (B : Type), ?M_1 → B → ?M_1
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λ {A B : Type} (a : A) (b : B), a : ?M_1 → ?M_2 → ?M_1
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λ {A : Type} (B : Type) (a : A) (b : B), a : Π (B : Type), ?A → B → ?A
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λ {A B : Type} (a : A) (b : B), a : ?A → ?B → ?A
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λ (A : Type) {B : Type} (a : A) (b : B), a : Π (A : Type) {B : Type}, A → B → A
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λ (A B : Type) (a : A) (b : B), a : Π (A B : Type), A → B → A
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λ [A : Type] (B : Type) (a : A) (b : B), a : Π (B : Type), ?M_1 → B → ?M_1
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λ [A : Type] (B : Type) (a : A) (b : B), a : Π (B : Type), ?A → B → ?A
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λ ⦃A : Type⦄ {B : Type} (a : A) (b : B), a : Π ⦃A : Type⦄ {B : Type}, A → B → A
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λ ⦃A B : Type⦄ (a : A) (b : B), a : Π ⦃A B : Type⦄, A → B → A
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@ -1,3 +1,3 @@
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id : ?M_1 → ?M_1
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refl : (?M_1 → ?M_1 → Prop) → Prop
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symm : (?M_1 → ?M_1 → Prop) → Prop
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id : ?A → ?A
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refl : (?A → ?A → Prop) → Prop
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symm : (?A → ?A → Prop) → Prop
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@ -1,6 +1,6 @@
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id : ?M_1 → ?M_1
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trans : (?M_1 → ?M_1 → Prop) → Prop
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symm : (?M_1 → ?M_1 → Prop) → Prop
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equivalence : (?M_1 → ?M_1 → Prop) → Prop
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id : ?A → ?A
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trans : (?A → ?A → Prop) → Prop
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symm : (?A → ?A → Prop) → Prop
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equivalence : (?A → ?A → Prop) → Prop
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λ (A : Type) (R : A → A → Prop),
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and (and (refl R) (symm R)) (trans R)
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