/* 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 "kernel/instantiate.h" #include "kernel/abstract.h" #include "library/unifier.h" #include "library/opaque_hints.h" #include "frontends/lean/util.h" #include "frontends/lean/class.h" #include "frontends/lean/tactic_hint.h" #include "frontends/lean/local_context.h" #include "frontends/lean/choice_iterator.h" namespace lean { /** \brief Context for handling placeholder metavariable choice constraint */ struct placeholder_context { io_state m_ios; name_generator m_ngen; type_checker_ptr m_tc; local_context m_ctx; bool m_relax; bool m_use_local_instances; placeholder_context(environment const & env, io_state const & ios, list const & ctx, name const & prefix, bool relax, bool use_local_instances): m_ios(ios), m_ngen(prefix), m_tc(mk_type_checker_with_hints(env, m_ngen.mk_child(), relax)), m_ctx(m_ngen.next(), ctx), m_relax(relax), m_use_local_instances(use_local_instances) { } environment const & env() const { return m_tc->env(); } io_state const & ios() const { return m_ios; } bool use_local_instances() const { return m_use_local_instances; } type_checker & tc() const { return *m_tc; } }; pair mk_placeholder_elaborator(std::shared_ptr const & C, bool is_strict, optional const & type, tag g); /** \brief Whenever the elaborator finds a placeholder '_' or introduces an implicit argument, it creates a metavariable \c ?m. It also creates a delayed choice constraint (?m in fn). The function \c fn produces a stream of alternative solutions for ?m. In this case, \c fn will do the following: 1) if the elaborated type of ?m is a 'class' C, then the stream will start with a) all local instances of class C (if elaborator.local_instances == true) b) solutions produced by tactic_hints for class C 2) if the elaborated type of ?m is not a class, then the stream will only contain the solutions produced by tactic_hints. The unifier only process delayed choice constraints when there are no other kind of constraint to be processed. This is a helper class for implementing this choice function. */ struct placeholder_elaborator : public choice_iterator { std::shared_ptr m_C; expr m_meta; // elaborated type of the metavariable expr m_meta_type; // local instances that should also be included in the // class-instance resolution. // This information is retrieved from the local context list m_local_instances; // global declaration names that are class instances. // This information is retrieved using #get_class_instances. list m_instances; // Tactic hints for the class list m_tactics; // result produce by last executed tactic. proof_state_seq m_tactic_result; // metavariables that occur in m_meta_type, the tactics may instantiate some of them buffer m_mvars_in_meta_type; justification m_jst; placeholder_elaborator(std::shared_ptr const & C, expr const & meta, expr const & meta_type, list const & local_insts, list const & instances, list const & tacs, justification const & j, bool ignore_failure): choice_iterator(ignore_failure), m_C(C), m_meta(meta), m_meta_type(meta_type), m_local_instances(local_insts), m_instances(instances), m_tactics(tacs), m_jst(j) { collect_metavars(meta_type, m_mvars_in_meta_type); } constraints mk_constraints(constraint const & c, buffer const & cs) { return cons(c, to_list(cs.begin(), cs.end())); } optional try_instance(expr const & inst, expr const & inst_type) { type_checker & tc = m_C->tc(); name_generator & ngen = m_C->m_ngen; tag g = inst.get_tag(); local_context & ctx = m_C->m_ctx; try { local_context::scope scope(ctx); buffer locals; expr meta_type = m_meta_type; while (true) { meta_type = tc.whnf(meta_type).first; if (!is_pi(meta_type)) break; expr local = mk_local(ngen.next(), binding_name(meta_type), binding_domain(meta_type), binding_info(meta_type)); ctx.add_local(local); locals.push_back(local); meta_type = instantiate(binding_body(meta_type), local); } expr type = inst_type; expr r = inst; buffer cs; while (true) { type = tc.whnf(type).first; if (!is_pi(type)) break; bool is_strict = true; pair ac = mk_placeholder_elaborator(m_C, is_strict, some_expr(binding_domain(type)), g); expr arg = ac.first; cs.push_back(ac.second); r = mk_app(r, arg).set_tag(g); type = instantiate(binding_body(type), arg); } r = Fun(locals, r); bool relax = m_C->m_relax; constraint c = mk_eq_cnstr(m_meta, r, m_jst, relax); return optional(mk_constraints(c, cs)); } catch (exception &) { return optional(); } } optional try_instance(name const & inst) { environment const & env = m_C->env(); if (auto decl = env.find(inst)) { name_generator & ngen = m_C->m_ngen; buffer ls_buffer; unsigned num_univ_ps = length(decl->get_univ_params()); for (unsigned i = 0; i < num_univ_ps; i++) ls_buffer.push_back(mk_meta_univ(ngen.next())); levels ls = to_list(ls_buffer.begin(), ls_buffer.end()); expr inst_cnst = copy_tag(m_meta, mk_constant(inst, ls)); expr inst_type = instantiate_type_univ_params(*decl, ls); return try_instance(inst_cnst, inst_type); } else { return optional(); } } optional get_next_tactic_result() { while (auto next = m_tactic_result.pull()) { m_tactic_result = next->second; if (!empty(next->first.get_goals())) continue; // has unsolved goals substitution subst = next->first.get_subst(); buffer cs; expr const & mvar = get_app_fn(m_meta); bool relax = m_C->m_relax; cs.push_back(mk_eq_cnstr(mvar, subst.instantiate(mvar), m_jst, relax)); for (auto const & mvar : m_mvars_in_meta_type) cs.push_back(mk_eq_cnstr(mvar, subst.instantiate(mvar), m_jst, relax)); return optional(to_list(cs.begin(), cs.end())); } return optional(); } virtual optional next() { while (!empty(m_local_instances)) { expr inst = head(m_local_instances); m_local_instances = tail(m_local_instances); if (!is_local(inst)) continue; if (auto r = try_instance(inst, mlocal_type(inst))) return r; } while (!empty(m_instances)) { name inst = head(m_instances); m_instances = tail(m_instances); if (auto cs = try_instance(inst)) return cs; } if (auto cs = get_next_tactic_result()) return cs; while (!empty(m_tactics)) { tactic const & tac = head(m_tactics).get_tactic(); m_tactics = tail(m_tactics); proof_state ps(goals(goal(m_meta, m_meta_type)), substitution(), m_C->m_ngen.mk_child()); try { m_tactic_result = tac(m_C->env(), m_C->ios(), ps); if (auto cs = get_next_tactic_result()) return cs; } catch (exception &) {} } return optional(); } }; pair mk_placeholder_elaborator(std::shared_ptr const & C, bool is_strict, optional const & type, tag g) { expr m = C->m_ctx.mk_meta(type, g); environment const & env = C->env(); justification j = mk_failed_to_synthesize_jst(env, m); auto choice_fn = [=](expr const & meta, expr const & meta_type, substitution const & s, name_generator const & /* ngen */) { expr const & mvar = get_app_fn(meta); if (auto cls_name_it = is_ext_class(C->tc(), meta_type)) { name cls_name = *cls_name_it; list const & ctx = C->m_ctx.get_data(); list local_insts; if (C->use_local_instances()) local_insts = get_local_instances(C->tc(), ctx, cls_name); list insts = get_class_instances(env, cls_name); list tacs; if (!s.is_assigned(mvar)) tacs = get_tactic_hints(env, cls_name); if (empty(local_insts) && empty(insts) && empty(tacs)) return lazy_list(); // nothing to be done // we are always strict with placeholders associated with classes bool ignore_failure = false; return choose(std::make_shared(C, meta, meta_type, local_insts, insts, tacs, j, ignore_failure)); } else if (s.is_assigned(mvar)) { // if the metavariable is assigned and it is not a class, then we just ignore it, and return // the an empty set of constraints. return lazy_list(constraints()); } else { list tacs = get_tactic_hints(env); bool ignore_failure = !is_strict; return choose(std::make_shared(C, meta, meta_type, list(), list(), tacs, j, ignore_failure)); } }; bool owner = false; bool relax = C->m_relax; constraint c = mk_choice_cnstr(m, choice_fn, to_delay_factor(cnstr_group::ClassInstance), owner, j, relax); return mk_pair(m, c); } /** \brief Create a metavariable, and attach choice constraint for generating solutions using class-instances and tactic-hints. */ pair mk_placeholder_elaborator( environment const & env, io_state const & ios, list const & ctx, name const & prefix, bool relax, bool use_local_instances, bool is_strict, optional const & type, tag g) { auto C = std::make_shared(env, ios, ctx, prefix, relax, use_local_instances); return mk_placeholder_elaborator(C, is_strict, type, g); } }