/* Copyright (c) 2013 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include #include #include #include #include "util/exception.h" #include "kernel/metavar.h" #include "kernel/free_vars.h" #include "kernel/instantiate.h" #include "kernel/occurs.h" #include "kernel/for_each_fn.h" #include "kernel/find_fn.h" namespace lean { /** \brief Assignment normalization justification. That is, when other assignments are applied to an existing assignment. */ class normalize_assignment_justification : public justification_cell { context m_ctx; expr m_expr; std::vector m_jsts; public: normalize_assignment_justification(context const & ctx, expr const & e, justification const & jst, unsigned num_assignment_jsts, justification const * assignment_jsts): m_ctx(ctx), m_expr(e), m_jsts(assignment_jsts, assignment_jsts + num_assignment_jsts) { m_jsts.push_back(jst); std::reverse(m_jsts.begin(), m_jsts.end()); } virtual format pp_header(formatter const & fmt, options const & opts) const { unsigned indent = get_pp_indent(opts); format expr_fmt = fmt(m_ctx, m_expr, false, opts); format r; r += format("Normalize assignment"); r += nest(indent, compose(line(), expr_fmt)); return r; } virtual void get_children(buffer & r) const { append(r, m_jsts); } virtual expr const & get_main_expr() const { return m_expr; } }; void swap(metavar_env & a, metavar_env & b) { swap(a.m_name_generator, b.m_name_generator); swap(a.m_metavar_data, b.m_metavar_data); std::swap(a.m_beta_reduce_mv, b.m_beta_reduce_mv); std::swap(a.m_timestamp, b.m_timestamp); } void metavar_env::inc_timestamp() { if (m_timestamp == std::numeric_limits::max()) { // This should not happen in real examples. We add it just to be safe. throw exception("metavar_env timestamp overflow"); } m_timestamp++; } metavar_env::metavar_env(name const & prefix): m_name_generator(prefix), m_beta_reduce_mv(true), m_timestamp(0) { } static name g_default_name("M"); metavar_env::metavar_env(): metavar_env(g_default_name) { } expr metavar_env::mk_metavar(context const & ctx, expr const & type) { inc_timestamp(); name m = m_name_generator.next(); expr r = ::lean::mk_metavar(m); m_metavar_data.insert(m, data(type, ctx)); return r; } context metavar_env::get_context(expr const & m) const { lean_assert(is_metavar(m)); lean_assert(!has_local_context(m)); return get_context(metavar_name(m)); } context metavar_env::get_context(name const & m) const { auto it = const_cast(this)->m_metavar_data.splay_find(m); lean_assert(it); return it->m_context; } expr metavar_env::get_type(expr const & m) { lean_assert(is_metavar(m)); expr t = get_type(metavar_name(m)); if (has_local_context(m)) { if (is_metavar(t)) { return update_metavar(t, append(metavar_lctx(m), metavar_lctx(t))); } else { return apply_local_context(t, metavar_lctx(m)); } } else { return t; } } expr metavar_env::get_type(name const & m) { auto it = const_cast(this)->m_metavar_data.splay_find(m); lean_assert(it); if (it->m_type) { return it->m_type; } else { expr t = mk_metavar(get_context(m)); it->m_type = t; return t; } } bool metavar_env::has_type(name const & m) const { auto it = const_cast(this)->m_metavar_data.splay_find(m); lean_assert(it); return it->m_type; } bool metavar_env::has_type(expr const & m) const { lean_assert(is_metavar(m)); return has_type(metavar_name(m)); } justification metavar_env::get_justification(expr const & m) const { lean_assert(is_metavar(m)); return get_justification(metavar_name(m)); } justification metavar_env::get_justification(name const & m) const { return get_subst_jst(m).second; } bool metavar_env::is_assigned(name const & m) const { auto it = const_cast(this)->m_metavar_data.splay_find(m); return it && it->m_subst; } bool metavar_env::is_assigned(expr const & m) const { lean_assert(is_metavar(m)); return is_assigned(metavar_name(m)); } void metavar_env::assign(name const & m, expr const & t, justification const & jst) { lean_assert(!is_assigned(m)); inc_timestamp(); auto it = const_cast(this)->m_metavar_data.splay_find(m); lean_assert(it); it->m_subst = t; it->m_justification = jst; } void metavar_env::assign(expr const & m, expr const & t, justification const & j) { lean_assert(is_metavar(m)); lean_assert(!has_local_context(m)); assign(metavar_name(m), t, j); } expr apply_local_context(expr const & a, local_context const & lctx) { if (lctx) { if (is_metavar(a)) { return mk_metavar(metavar_name(a), append(lctx, metavar_lctx(a))); } else { expr r = apply_local_context(a, tail(lctx)); local_entry const & e = head(lctx); if (e.is_lift()) { return lift_free_vars(r, e.s(), e.n()); } else { lean_assert(e.is_inst()); return instantiate(r, e.s(), e.v()); } } } else { return a; } } std::pair metavar_env::get_subst_jst(expr const & m) const { lean_assert(is_metavar(m)); auto p = get_subst_jst(metavar_name(m)); expr r = p.first; if (p.first) { local_context const & lctx = metavar_lctx(m); if (lctx) r = apply_local_context(r, lctx); return mk_pair(r, p.second); } else { return p; } } std::pair metavar_env::get_subst_jst(name const & m) const { auto it = const_cast(this)->m_metavar_data.splay_find(m); if (it->m_subst) { if (has_assigned_metavar(it->m_subst, *this)) { buffer jsts; expr new_subst = instantiate_metavars(it->m_subst, *this, jsts); if (!jsts.empty()) { it->m_justification = justification(new normalize_assignment_justification(it->m_context, it->m_subst, it->m_justification, jsts.size(), jsts.data())); it->m_subst = new_subst; } } return mk_pair(it->m_subst, it->m_justification); } else { return mk_pair(expr(), justification()); } } expr metavar_env::get_subst(name const & m) const { return get_subst_jst(m).first; } expr metavar_env::get_subst(expr const & m) const { return get_subst_jst(m).first; } class instantiate_metavars_proc : public replace_visitor { protected: metavar_env const & m_menv; buffer & m_jsts; void push_back(justification const & jst) { if (jst) m_jsts.push_back(jst); } virtual expr visit_metavar(expr const & m, context const & ctx) { if (is_metavar(m) && m_menv.is_assigned(m)) { auto p = m_menv.get_subst_jst(m); expr r = p.first; push_back(p.second); if (has_assigned_metavar(r, m_menv)) { return visit(r, ctx); } else { return r; } } else { return m; } } virtual expr visit_app(expr const & e, context const & ctx) { expr const & f = arg(e, 0); if (m_menv.beta_reduce_metavar_application() && is_metavar(f) && m_menv.is_assigned(f)) { buffer new_args; for (unsigned i = 0; i < num_args(e); i++) new_args.push_back(visit(arg(e, i), ctx)); if (is_lambda(new_args[0])) return apply_beta(new_args[0], new_args.size() - 1, new_args.data() + 1); else return mk_app(new_args); } else { return replace_visitor::visit_app(e, ctx); } } public: instantiate_metavars_proc(metavar_env const & menv, buffer & jsts): m_menv(menv), m_jsts(jsts) { } }; expr instantiate_metavars(expr const & e, metavar_env const & menv, buffer & jsts) { if (!e || !has_metavar(e)) { return e; } else { return instantiate_metavars_proc(menv, jsts)(e); } } bool has_assigned_metavar(expr const & e, metavar_env const & menv) { if (!has_metavar(e)) { return false; } else { bool result = false; for_each(e, [&](expr const & n, unsigned) { if (result) return false; if (!has_metavar(n)) return false; if (is_metavar(n) && menv.is_assigned(n)) { result = true; return false; } return true; }); return result; } } local_context add_lift(local_context const & lctx, unsigned s, unsigned n) { if (n == 0) { return lctx; } else if (lctx) { local_entry e = head(lctx); // Simplification rule // lift:(s1+n1):n2 lift:s1:n1 ---> lift:s1:n1+n2 if (e.is_lift() && s == e.s() + e.n()) { return add_lift(tail(lctx), e.s(), e.n() + n); } } return cons(mk_lift(s, n), lctx); } expr add_lift(expr const & m, unsigned s, unsigned n) { return update_metavar(m, add_lift(metavar_lctx(m), s, n)); } local_context add_inst(local_context const & lctx, unsigned s, expr const & v) { if (lctx) { local_entry e = head(lctx); if (e.is_lift() && e.s() <= s && s < e.s() + e.n()) { return add_lift(tail(lctx), e.s(), e.n() - 1); } // Simplifications such as // inst:4 #6 lift:5:3 --> lift:4:2 // inst:3 #7 lift:4:5 --> lift:3:4 // General rule is: // inst:(s-1) #(s+n-2) lift:s:n --> lift:s-1:n-1 if (e.is_lift() && is_var(v) && e.s() > 0 && s == e.s() - 1 && e.s() + e.n() > 2 && var_idx(v) == e.s() + e.n() - 2) { return add_lift(tail(lctx), e.s() - 1, e.n() - 1); } } return cons(mk_inst(s, v), lctx); } expr add_inst(expr const & m, unsigned s, expr const & v) { return update_metavar(m, add_inst(metavar_lctx(m), s, v)); } bool has_local_context(expr const & m) { return metavar_lctx(m); } expr pop_meta_context(expr const & m) { lean_assert(has_local_context(m)); return update_metavar(m, tail(metavar_lctx(m))); } /** \brief Auxiliary exception used to sign that a metavariable was found in an expression. */ struct found_metavar {}; bool has_metavar(expr const & e, expr const & m, metavar_env const & menv) { if (has_metavar(e)) { lean_assert(is_metavar(m)); lean_assert(!menv.is_assigned(m)); return find(e, [&](expr const & m2) { return is_metavar(m2) && ((metavar_name(m) == metavar_name(m2)) || (menv.is_assigned(m2) && has_metavar(menv.get_subst(m2), m, menv))); }); } else { return false; } } }