/* 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 #include "util/lua.h" #include "util/lazy_list.h" #include "util/name_generator.h" #include "util/sexpr/options.h" #include "kernel/constraint.h" #include "kernel/environment.h" #include "kernel/metavar.h" namespace lean { unsigned get_unifier_max_steps(options const & opts); bool get_unifier_computation(options const & opts); bool is_simple_meta(expr const & e); expr mk_aux_metavar_for(name_generator & ngen, expr const & t); enum class unify_status { Solved, Failed, Unsupported }; /** \brief Handle the easy-cases: first-order unification, higher-order patterns, identical terms, and terms without metavariables. This function assumes that all assigned metavariables have been substituted. */ unify_status unify_simple(substitution & s, expr const & lhs, expr const & rhs, justification const & j); unify_status unify_simple(substitution & s, level const & lhs, level const & rhs, justification const & j); unify_status unify_simple(substitution & s, constraint const & c); struct unifier_config { bool m_use_exceptions; unsigned m_max_steps; bool m_computation; bool m_expensive_classes; // If m_discard is true, then constraints that cannot be solved are discarded (or incomplete methods are used) // If m_discard is false, unify returns the set of constraints that could not be handled. bool m_discard; // If m_cheap is true, then expensive case-analysis is not performed (e.g., delta). // Default is m_cheap == false bool m_cheap; // If m_ignore_context_check == true, then occurs-check is skipped. // Default is m_ignore_context_check == false bool m_ignore_context_check; unifier_config(bool use_exceptions = false, bool discard = false); explicit unifier_config(options const & o, bool use_exceptions = false, bool discard = false); }; /** \brief The unification procedures produce a lazy list of pair substitution + constraints that could not be solved. */ typedef lazy_list> unify_result_seq; unify_result_seq unify(environment const & env, unsigned num_cs, constraint const * cs, name_generator const & ngen, substitution const & s = substitution(), unifier_config const & c = unifier_config()); unify_result_seq unify(environment const & env, expr const & lhs, expr const & rhs, name_generator const & ngen, bool relax_main_opaque, substitution const & s = substitution(), unifier_config const & c = unifier_config()); /** The unifier divides the constraints in 9 groups: Simple, Basic, FlexRigid, PluginDelayed, DelayedChoice, ClassInstance, Epilogue, FlexFlex, MaxDelayed 1) Simple: constraints that never create case-splits. Example: pattern matching constraints (?M l_1 ... l_n) =?= t. The are not even inserted in the constraint priority queue. 2) Basic: contains user choice constraints used to model coercions and overloaded constraints, and constraints that cannot be solved, and the unification plugin must be invoked. 3) FlexRigid constraints (?M t_1 ... t_n) =?= t, where t_n is not an introduction application 4) PluginDelayed: contraints delayed by the unifier_plugin. Examples: (elim ... (?m ...)) and (?m ... (intro ...)), where elim is an eliminator/recursor and intro is an introduction/constructor. This constraints are delayed because after ?m is assigned we may be able to reduce them. 5) DelayedChoice: for delayed choice constraints (we use this group for the maximally delayed coercions constraints). 6) ClassInstance: for delayed choice constraints (we use this group for class-instance). 7) Epilogue: constraints that must be solved before FlexFlex are discarded/postponed. 8) FlexFlex: (?m1 ...) =?= (?m2 ...) we don't try to solve this constraint, we delay them and hope the other ones instantiate ?m1 or ?m2. If this kind of constraint is the next to be processed in the queue, then we simply discard it (or save it and return to the caller as residue). 9) MaxDelayed: maximally delayed constraint group */ enum class cnstr_group { Basic = 0, FlexRigid, PluginDelayed, DelayedChoice, ClassInstance, Epilogue, FlexFlex, MaxDelayed }; inline unsigned to_delay_factor(cnstr_group g) { return static_cast(g); } class unifier_exception : public exception { justification m_jst; substitution m_subst; public: unifier_exception(justification const & j, substitution const & s):exception("unifier exception"), m_jst(j), m_subst(s) {} virtual exception * clone() const { return new unifier_exception(m_jst, m_subst); } virtual void rethrow() const { throw *this; } justification const & get_justification() const { return m_jst; } substitution const & get_substitution() const { return m_subst; } }; void open_unifier(lua_State * L); void initialize_unifier(); void finalize_unifier(); }