/* 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 "kernel/expr.h" #include "kernel/type_checker.h" #include "library/choice_iterator.h" namespace lean { /** \brief Abstract class for hiding details of the info_manager from the coercion_elaborator */ class coercion_info_manager { public: virtual void erase_coercion_info(expr const & e) = 0; virtual void save_coercion_info(expr const & e, expr const & c) = 0; }; class coercion_elaborator : public choice_iterator { coercion_info_manager & m_info; expr m_arg; bool m_id; // true if identity was not tried yet list m_choices; list m_coercions; public: coercion_elaborator(coercion_info_manager & info, expr const & arg, list const & choices, list const & coes, bool use_id = true); optional next(); }; /** \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. This function is used when the types \c a_type and/or the type of \c m are not known at preprocessing time, and a choice function is used to enumerate coercion functions \c f. By "not known", we mean the type is a metavariable application. \see coercion_info_manager */ 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); list get_coercions_from_to(type_checker & tc, expr const & from_type, expr const & to_type, constraint_seq & cs); }