/* Copyright (c) 2013 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include "context.h" #include "instantiate.h" #include "environment.h" #include "name_set.h" #include "update_expr.h" #include "free_vars.h" namespace lean { bool is_head_beta(expr const & t) { return is_app(t) && is_lambda(arg(t, 0)); } expr head_beta_reduce(expr const & t) { if (!is_head_beta(t)) { return t; } else { unsigned num = num_args(t); unsigned num1 = num - 1; expr const * f = &arg(t, 0); lean_assert(is_lambda(*f)); unsigned m = 1; while (is_lambda(abst_body(*f)) && m < num1) { f = &abst_body(*f); m++; } lean_assert(m <= num1); expr r = instantiate(abst_body(*f), m, &arg(t, 1)); if (m == num1) { return r; } else { buffer args; args.push_back(r); m++; for (; m < num; m++) args.push_back(arg(t, m)); return mk_app(args.size(), args.data()); } } } expr head_reduce(expr const & t, environment const & e, context const & c, name_set const * defs) { if (is_head_beta(t)) { return head_beta_reduce(t); } else if (is_app(t)) { expr f = arg(t, 0); if (is_head_beta(f) || is_let(f) || is_constant(f) || is_var(f)) { expr new_f = head_reduce(f, e, c, defs); if (!is_eqp(f, new_f)) return update_app(t, 0, new_f); else return t; } else { return t; } } else if (is_var(t)) { auto p = lookup_ext(c, var_idx(t)); context_entry const & ce = p.first; if (ce.get_body()) { return lift_free_vars(ce.get_body(), c.size() - p.second.size()); } else { return t; } } else if (is_let(t)) { return instantiate(let_body(t), let_value(t)); } else if (is_constant(t)) { name const & n = const_name(t); if (defs == nullptr || defs->find(n) != defs->end()) { object const & obj = e.find_object(n); if (obj && obj.is_definition() && !obj.is_opaque()) return obj.get_value(); } } return t; } }