/* Copyright (c) 2015 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #ifndef _LEAN_UNIV_H #define _LEAN_UNIV_H #ifdef __cplusplus extern "C" { #endif /** \defgroup capi C API */ /*@{*/ /** @name Universe API */ /*@{*/ LEAN_DEFINE_TYPE(lean_univ); typedef enum { LEAN_UNIV_ZERO, LEAN_UNIV_SUCC, LEAN_UNIV_MAX, LEAN_UNIV_IMAX, LEAN_UNIV_PARAM, LEAN_UNIV_GLOBAL, LEAN_UNIV_META } lean_univ_kind; /** \brief Create the base universe zero */ lean_bool lean_univ_mk_zero(lean_univ * r, lean_exception * ex); /** \brief Create the successor universe */ lean_bool lean_univ_mk_succ(lean_univ u, lean_univ * r, lean_exception * ex); /** \brief r := max(u1, u2) */ lean_bool lean_univ_mk_max(lean_univ u1, lean_univ u2, lean_univ * r, lean_exception * ex); /** \brief r := imax(u1, u2) */ lean_bool lean_univ_mk_imax(lean_univ u1, lean_univ u2, lean_univ * r, lean_exception * ex); /** \brief Create a universe parameter with the given name. */ lean_bool lean_univ_mk_param(lean_name n, lean_univ * r, lean_exception * ex); /** \brief Create a reference to a global universe with the given name. */ lean_bool lean_univ_mk_global(lean_name n, lean_univ * r, lean_exception * ex); /** \brief Create a universe meta-variable with the given name. */ lean_bool lean_univ_mk_meta(lean_name n, lean_univ * r, lean_exception * ex); /** \brief Store in \c r a string representation of the given options object. \remark \c r must be deleted using #lean_string_del */ lean_bool lean_univ_to_string(lean_univ u, char const ** r, lean_exception * ex); /** \brief Similar to \c lean_univ_to_string, but uses pretty printing options in \c o, when converting objection into a string. */ lean_bool lean_univ_to_string_using(lean_univ u, lean_options o, char const ** r, lean_exception * ex); /** \brief Delete/dispose the given universe object. */ void lean_univ_del(lean_univ u); /** \brief Return the kind of the given universe. \remark Return LEAN_UNIV_ZERO if u is null. */ lean_univ_kind lean_univ_get_kind(lean_univ u); /** \brief Store \c lean_true in \c r iff the two given universe object are equal. */ lean_bool lean_univ_eq(lean_univ u1, lean_univ u2, lean_bool * r, lean_exception * ex); /** \brief If \c r contains \c lean_true, then forall assignments \c A that assigns all parameters, globals and metavariables occuring in \c u1 and \c u2, we have that the universe level u1[A] is bigger or equal to u2[A]. */ lean_bool lean_univ_geq(lean_univ u1, lean_univ u2, lean_bool * r, lean_exception * ex); /** \brief Store the predecessor universe of \c u in \c r. \pre lean_univ_get_kind(u) == LEAN_UNIV_SUCC */ lean_bool lean_univ_get_pred(lean_univ u, lean_univ * r, lean_exception * ex); /** \brief Store the left-hand-side of the max/imax universe \c u in \c r. \pre lean_univ_get_kind(u) == LEAN_UNIV_MAX || lean_univ_get_kind(u) == LEAN_UNIV_IMAX */ lean_bool lean_univ_get_max_lhs(lean_univ u, lean_univ * r, lean_exception * ex); /** \brief Store the right-hand-side of the max/imax universe \c u in \c r. \pre lean_univ_get_kind(u) == LEAN_UNIV_MAX || lean_univ_get_kind(u) == LEAN_UNIV_IMAX */ lean_bool lean_univ_get_max_rhs(lean_univ u, lean_univ * r, lean_exception * ex); /** \brief Store the name of the given universe in \c r. \pre lean_univ_get_kind(u) == LEAN_UNIV_PARAM || lean_univ_get_kind(u) == LEAN_UNIV_GLOBAL || lean_univ_get_kind(u) == LEAN_UNIV_META */ lean_bool lean_univ_get_name(lean_univ u, lean_name * r, lean_exception * ex); /** \brief Store in \c r the normal for of the given universe */ lean_bool lean_univ_normalize(lean_univ u, lean_univ * r, lean_exception * ex); /** \brief Instantiate the universe parameters names ns[i] with us[i] in \c u, and store the result in \c r. \remark \c ns and \c us are arrays of names and universes, and both have size \c sz. */ lean_bool lean_univ_instantiate(lean_univ u, unsigned sz, lean_name const * ns, lean_univ const * us, lean_univ * r, lean_exception * ex); /*@}*/ /*@}*/ #ifdef __cplusplus }; #endif #endif