/*
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/justification.h"
namespace lean {
/**
   \brief The lean kernel type checker produces three kinds of constraints:

   - Equality constraint:          t ≈ s
        The terms t and s must be definitionally equal.
   - Convertability constraint:    t ↠ s
        The term t must be convertible to s
   - Universe level constaint:     l ≤ m
        The universe level l must be less than or equal to m.

   \remark The first two kinds are only generated if the input term
   contains metavariables.

   Each constraint is associated with a justification object.

   Finally, we also include a choice constraint. The choice is an auxiliary
   constraint used to implement overloading and coercions in Lean.
   This constraint is not generated by the kernel.
   A choice constraint has the form:
             t ∊ {s_1, ..., s_k}
   It means, t must be definitionally equal to one of the terms in the (finite)
   set {s_1, ..., s_k}.
*/
enum constraint_kind { Eq, Convertible, Level, Choice };
struct constraint_cell;
class constraint {
    constraint_cell * m_ptr;
    constraint(constraint_cell * ptr);
public:
    constraint(constraint const & c);
    constraint(constraint && s);
    ~constraint();

    constraint_kind kind() const;
    unsigned hash() const;
    justification const & get_justification() const;

    constraint & operator=(constraint const & c);
    constraint & operator=(constraint && c);

    friend bool is_eqp(constraint const & c1, constraint const & c2) { return c1.m_ptr == c2.m_ptr; }
    friend void swap(constraint & l1, constraint & l2) { std::swap(l1, l2); }

    friend constraint mk_eq_cnstr(expr const & lhs, expr const & rhs, justification const & j);
    friend constraint mk_conv_cnstr(expr const & lhs, expr const & rhs, justification const & j);
    friend constraint mk_level_cnstr(level const & lhs, level const & rhs, justification const & j);
    friend constraint mk_choice_cnstr(expr const & t, list<expr> const & s, justification const & j);

    constraint_cell * raw() const { return m_ptr; }
};

bool operator==(constraint const & c1, constraint const & c2);
inline bool operator!=(constraint const & c1, constraint const & c2) { return !(c1 == c2); }

bool is_eq_cnstr(constraint const & c) { return c.kind() == constraint_kind::Eq; }
bool is_conv_cnstr(constraint const & c) { return c.kind() == constraint_kind::Convertible; }
bool is_level_cnstr(constraint const & c) { return c.kind() == constraint_kind::Level; }
bool is_choice_cnstr(constraint const & c) { return c.kind() == constraint_kind::Choice; }
bool is_eqc_cnstr(constraint const & c) { return is_eq_cnstr(c) || is_conv_cnstr(c); }

/** \brief Return the lhs of an equality/convertability constraint. */
expr const & cnstr_lhs_expr(constraint const & c);
/** \brief Return the rhs of an equality/convertability constraint. */
expr const & cnstr_rhs_expr(constraint const & c);
/** \brief Return the lhs of an level constraint. */
level const & cnstr_lhs_level(constraint const & c);
/** \brief Return the rhs of an level constraint. */
level const & cnstr_rhs_level(constraint const & c);
/** \brief Return the main term a choice constraint. */
expr const & cnstr_choice_expr(constraint const & c);
/** \brief Return the choice set of a choice constraint. */
list<expr> const & cnstr_choice_set(constraint const & c);

/** \brief Update equality/convertability constraint c with new_lhs, new_rhs and justification. */
constraint updt_eqc_cnstr(constraint const & c, expr const & new_lhs, expr const & new_rhs, justification const & new_jst);
/** \brief Update equality/convertability constraint c with new_lhs and new_rhs, but keeping the same justification. */
constraint updt_eqc_cnstr(constraint const & c, expr const & new_lhs, expr const & new_rhs);
/** \brief Update level constraint c with new_lhs, new_rhs and justification. */
constraint updt_level_cnstr(constraint const & c, level const & new_lhs, level const & new_rhs, justification const & new_jst);
/** \brief Update level constraint c with new_lhs and new_rhs, but keeping the same justification. */
constraint updt_level_cnstr(constraint const & c, level const & new_lhs, level const & new_rhs);

/** \brief Printer for debugging purposes */
std::ostream & operator<<(std::ostream & out, constraint const & c);

typedef list<constraint> constraints;
}