/* Copyright (c) 2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #pragma once #include #include "util/rb_map.h" #include "util/optional.h" #include "kernel/expr.h" #include "kernel/justification.h" namespace lean { class substitution { rb_map, name_quick_cmp> m_expr_subst; rb_map, name_quick_cmp> m_level_subst; public: typedef optional> opt_expr_jst; typedef optional> opt_level_jst; bool is_expr_assigned(name const & m) const; opt_expr_jst get_expr_assignment(name const & m) const; bool is_level_assigned(name const & m) const; opt_level_jst get_level_assignment(name const & m) const; optional get_expr(name const & m) const; optional get_level(name const & m) const; void assign(name const & m, expr const & t, justification const & j); void assign(name const & m, expr const & t); void assign(name const & m, level const & t, justification const & j); void assign(name const & m, level const & t); void for_each(std::function const & fn) const; void for_each(std::function const & fn) const; bool is_assigned(expr const & m) const { lean_assert(is_metavar(m)); return is_expr_assigned(mlocal_name(m)); } opt_expr_jst get_assignment(expr const & m) const { lean_assert(is_metavar(m)); return get_expr_assignment(mlocal_name(m)); } optional get_expr(expr const & m) const { lean_assert(is_metavar(m)); return get_expr(mlocal_name(m)); } void assign(expr const & m, expr const & t, justification const & j) { lean_assert(is_metavar(m)); assign(mlocal_name(m), t, j); } void assign(expr const & m, expr const & t) { lean_assert(is_metavar(m)); return assign(mlocal_name(m), t); } bool is_assigned(level const & m) const { lean_assert(is_meta(m)); return is_level_assigned(meta_id(m)); } opt_level_jst get_assignment(level const & m) const { lean_assert(is_meta(m)); return get_level_assignment(meta_id(m)); } optional get_level(level const & m) const { lean_assert(is_meta(m)); return get_level(meta_id(m)); } void assign(level const & m, level const & l, justification const & j) { lean_assert(is_meta(m)); assign(meta_id(m), l, j); } void assign(level const & m, level const & l) { lean_assert(is_meta(m)); return assign(meta_id(m), l); } /** \brief Instantiate metavariables in \c e assigned in this substitution. */ std::pair instantiate_metavars(expr const & e) const; /** \brief Similar to the previous function, but it compress the substitution. By compress, we mean, for any metavariable \c m reachable from \c e, if s[m] = t, and t has asssigned metavariables, then s[m] <- instantiate_metavars(t, s). */ std::pair d_instantiate_metavars(expr const & e); /** \brief Instantiate level metavariables in \c l. */ std::pair instantiate_metavars(level const & l) const; /** \brief Instantiate metavariables in \c e assigned in the substitution \c s, but does not return a justification object for the new expression. */ expr instantiate_metavars_wo_jst(expr const & e) const; expr d_instantiate_metavars_wo_jst(expr const & e); /** \brief Instantiate level metavariables in \c l, but does not return justification object. */ level instantiate_metavars_wo_jst(level const & l) const; /** \brief Return true iff the metavariable \c m occurrs (directly or indirectly) in \c e. */ bool occurs_expr(name const & m, expr const & e) const; /** \brief Return true iff the meta universe parameter \c m occurrs (directly or indirectly) in \c e. */ bool occurs_level(name const & m, expr const & e) const; bool occurs(expr const & m, expr const & e) const { lean_assert(is_metavar(m)); return occurs_expr(mlocal_name(m), e); } bool occurs(level const & m, expr const & e) const { lean_assert(is_meta(m)); return occurs_expr(meta_id(m), e); } }; }