lean2/src/kernel/environment.h

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/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Leonardo de Moura
*/
#pragma once
#include <iostream>
#include <memory>
#include "object.h"
#include "level.h"
namespace lean {
/**
\brief Lean environment for defining constants, inductive
datatypes, universe variables, et.c
*/
class environment {
private:
struct imp;
std::shared_ptr<imp> m_imp;
void check_type(name const & n, expr const & t, expr const & v);
explicit environment(std::shared_ptr<imp> const & ptr);
explicit environment(imp * new_ptr);
unsigned get_num_objects(bool local) const;
object const & get_object(unsigned i, bool local) const;
public:
environment();
~environment();
// =======================================
// Parent/Child environment management
/**
\brief Create a child environment. This environment will only allow "read-only" operations until
all children environments are deleted.
*/
environment mk_child() const;
/** \brief Return true iff this environment has children environments. */
bool has_children() const;
/** \brief Return true iff this environment has a parent environment. */
bool has_parent() const;
/**
\brief Return parent environment of this environment.
\pre has_parent()
*/
environment parent() const;
// =======================================
// =======================================
// Universe variables
/**
\brief Add a new universe variable with name \c n and constraint <tt>n >= l</tt>.
Return the new variable.
\remark An exception is thrown if a universe inconsistency is detected.
*/
level add_uvar(name const & n, level const & l);
level add_uvar(name const & n) { return add_uvar(n, level()); }
/**
\brief Return true iff the constraint l1 >= l2 is implied by the constraints
in the environment.
*/
bool is_ge(level const & l1, level const & l2) const;
/**
\brief Return universal variable with the given name.
Throw an exception if variable is not defined in this environment.
*/
level get_uvar(name const & n) const;
// =======================================
// =======================================
// Environment Objects
/**
\brief Add a new definition n : t := v.
It throws an exception if v does not have type t.
It throws an exception if there is already an object with the given name.
If opaque == true, then definition is not used by normalizer.
*/
void add_definition(name const & n, expr const & t, expr const & v, bool opaque = false);
void add_theorem(name const & n, expr const & t, expr const & v);
/**
\brief Add a new definition n : infer_type(v) := v.
It throws an exception if there is already an object with the given name.
If opaque == true, then definition is not used by normalizer.
*/
void add_definition(name const & n, expr const & v, bool opaque = false);
/**
\brief Add a new fact (Axiom or Fact) to the environment.
It throws an exception if there is already an object with the given name.
*/
void add_axiom(name const & n, expr const & t);
void add_var(name const & n, expr const & t);
/**
\brief Register the given unanymous object in this environment.
The environment assume the object ownership.
*/
void add_neutral_object(neutral_object_cell * o);
/**
\brief Return the object with the given name.
It throws an exception if the environment does not have an object with the given name.
*/
object const & get_object(name const & n) const;
/**
\brief Find a given object in the environment. Return the null
object if there is no object with the given name.
\remark Object implements operator bool(), and the null object returns false.
*/
object const & find_object(name const & n) const;
/** \brief Return true iff the environment has an object with the given name */
bool has_object(name const & n) const { return find_object(n); }
/** \brief Iterator for Lean environment objects. */
class object_iterator {
environment const & m_env;
unsigned m_idx;
bool m_local;
friend class environment;
object_iterator(environment const & env, unsigned idx, bool local):m_env(env), m_idx(idx), m_local(local) {}
public:
object_iterator(object_iterator const & s):m_env(s.m_env), m_idx(s.m_idx), m_local(s.m_local) {}
object_iterator & operator++() { ++m_idx; return *this; }
object_iterator operator++(int) { object_iterator tmp(*this); operator++(); return tmp; }
object_iterator & operator--() { --m_idx; return *this; }
object_iterator operator--(int) { object_iterator tmp(*this); operator--(); return tmp; }
bool operator==(object_iterator const & s) const { lean_assert(&m_env == &(s.m_env)); return m_idx == s.m_idx; }
bool operator!=(object_iterator const & s) const { return !operator==(s); }
object const & operator*() { return m_env.get_object(m_idx, m_local); }
object const * operator->() { return &(m_env.get_object(m_idx, m_local)); }
};
/**
\brief Return an iterator to the beginning of the sequence of
objects stored in this environment.
\remark The objects in this environment and ancestor
environments are considered
*/
object_iterator begin_objects() const { return object_iterator(*this, 0, false); }
/**
\brief Return an iterator to the end of the sequence of
objects stored in this environment.
\remark The objects in this environment and ancestor
environments are considered
*/
object_iterator end_objects() const { return object_iterator(*this, get_num_objects(false), false); }
/**
\brief Return an iterator to the beginning of the sequence of
objects stored in this environment (objects in ancestor
environments are ingored).
*/
object_iterator begin_local_objects() const { return object_iterator(*this, 0, true); }
/**
\brief Return an iterator to the end of the sequence of
objects stored in this environment (objects in ancestor
environments are ingored).
*/
object_iterator end_local_objects() const { return object_iterator(*this, get_num_objects(true), true); }
// =======================================
/** \brief Display universal variable constraints and objects stored in this environment and its parents. */
void display(std::ostream & out) const;
void set_interrupt(bool flag);
void interrupt() { set_interrupt(true); }
void reset_interrupt() { set_interrupt(false); }
};
}