/*
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 "kernel/expr.h"
namespace lean {
/**
\brief Return true iff the given expression has free variables.
*/
bool has_free_vars(expr const & a);
/**
\brief Return true iff the given expression does not have free variables.
*/
inline bool closed(expr const & a) { return !has_free_vars(a); }
class metavar_env;
/**
\brief Return \c R s.t. the de Bruijn index of all free variables
occurring in \c e is in the interval [0, R).
\pre All metavariables occurring in \c e must have been created
at \c menv.
\remark Regarding metavariables, if a metavariable \c m was defined
in a context \c ctx and ctx.size() == R, then \c m can
only contain free variables in the range [0, R)
So, if \c m does not have an associated local context, the answer is just \c R.
If \c m has an associated local context, we process it using the following rules
[inst:s v] R ===> if s >= R then R else max(R-1, range_of(v))
[lift:s:n] R ===> if s >= R then R else R + n
*/
unsigned free_var_range(expr const & e, metavar_env const & menv);
/**
\brief Return true iff \c e contains the free variable (var i).
*/
bool has_free_var(expr const & e, unsigned i);
/**
\brief Return true iff \c e constains a free variable (var i) s.t. \c i in [low, high).
\pre low < high
*/
bool has_free_var(expr const & e, unsigned low, unsigned high);
/**
\brief Lower the free variables >= s in \c e by d. That is, a free variable (var i) s.t.
i >= s is mapped into (var i-d).
\pre d > 0
\pre !has_free_var(e, 0, d)
*/
expr lower_free_vars(expr const & e, unsigned s, unsigned d);
inline expr lower_free_vars(expr const & e, unsigned d) { return lower_free_vars(e, d, d); }
/**
\brief Lift free variables >= s in \c e by d.
*/
expr lift_free_vars(expr const & e, unsigned s, unsigned d);
inline expr lift_free_vars(expr const & e, unsigned d) { return lift_free_vars(e, 0, d); }
}