/* 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/type_checker.h" #include "kernel/metavar.h" #include "kernel/constraint.h" #include "library/coercion.h" #include "library/unifier.h" #include "library/choice_iterator.h" #include "frontends/lean/coercion_elaborator.h" namespace lean { coercion_elaborator::coercion_elaborator(coercion_info_manager & info, expr const & arg, list const & choices, list const & coes, bool use_id): m_info(info), m_arg(arg), m_id(use_id), m_choices(choices), m_coercions(coes) { lean_assert(!use_id || length(m_coercions) + 1 == length(m_choices)); lean_assert(use_id || length(m_coercions) == length(m_choices)); } list get_coercions_from_to(type_checker & tc, expr const & from_type, expr const & to_type, constraint_seq & cs) { constraint_seq new_cs; expr whnf_to_type = tc.whnf(to_type, new_cs); expr const & fn = get_app_fn(whnf_to_type); list r; if (is_constant(fn)) { r = get_coercions(tc.env(), from_type, const_name(fn)); } else if (is_pi(whnf_to_type)) { r = get_coercions_to_fun(tc.env(), from_type); } else if (is_sort(whnf_to_type)) { r = get_coercions_to_sort(tc.env(), from_type); } if (r) cs += new_cs; return r; } optional coercion_elaborator::next() { if (!m_choices) return optional(); if (m_id) { m_id = false; m_info.erase_coercion_info(m_arg); } else if (m_coercions) { expr c = head(m_coercions); m_coercions = tail(m_coercions); m_info.save_coercion_info(m_arg, mk_app(c, m_arg)); } auto r = head(m_choices); m_choices = tail(m_choices); return optional(r); } /** \brief Given a term a : a_type, and a metavariable \c m, creates a constraint that considers coercions from a_type to the type assigned to \c m. */ constraint mk_coercion_cnstr(type_checker & tc, coercion_info_manager & infom, expr const & m, expr const & a, expr const & a_type, justification const & j, unsigned delay_factor) { auto choice_fn = [=, &tc, &infom](expr const & meta, expr const & d_type, substitution const & s, name_generator const & /* ngen */) { expr new_a_type; justification new_a_type_jst; if (is_meta(a_type)) { auto p = substitution(s).instantiate_metavars(a_type); new_a_type = p.first; new_a_type_jst = p.second; } else { new_a_type = a_type; } if (is_meta(new_a_type)) { if (delay_factor < to_delay_factor(cnstr_group::DelayedChoice)) { // postpone... return lazy_list(constraints(mk_coercion_cnstr(tc, infom, m, a, a_type, justification(), delay_factor+1))); } else { // giveup... return lazy_list(constraints(mk_eq_cnstr(meta, a, justification()))); } } constraint_seq cs; new_a_type = tc.whnf(new_a_type, cs); if (is_meta(d_type)) { // case-split buffer> alts; get_coercions_from(tc.env(), new_a_type, alts); buffer choices; buffer coes; // first alternative: no coercion constraint_seq cs1 = cs + mk_eq_cnstr(meta, a, justification()); choices.push_back(cs1.to_list()); unsigned i = alts.size(); while (i > 0) { --i; auto const & t = alts[i]; expr coe = std::get<1>(t); expr new_a = copy_tag(a, mk_app(coe, a)); coes.push_back(coe); constraint_seq csi = cs + mk_eq_cnstr(meta, new_a, new_a_type_jst); choices.push_back(csi.to_list()); } return choose(std::make_shared(infom, meta, to_list(choices.begin(), choices.end()), to_list(coes.begin(), coes.end()))); } else { list coes = get_coercions_from_to(tc, new_a_type, d_type, cs); if (is_nil(coes)) { expr new_a = a; infom.erase_coercion_info(a); cs += mk_eq_cnstr(meta, new_a, new_a_type_jst); return lazy_list(cs.to_list()); } else if (is_nil(tail(coes))) { expr new_a = copy_tag(a, mk_app(head(coes), a)); infom.save_coercion_info(a, new_a); cs += mk_eq_cnstr(meta, new_a, new_a_type_jst); return lazy_list(cs.to_list()); } else { list choices = map2(coes, [&](expr const & coe) { expr new_a = copy_tag(a, mk_app(coe, a)); constraint c = mk_eq_cnstr(meta, new_a, new_a_type_jst); return (cs + c).to_list(); }); return choose(std::make_shared(infom, meta, choices, coes, false)); } } }; return mk_choice_cnstr(m, choice_fn, delay_factor, true, j); } }