refactor(kernel): use structural hashing in type_checker and converter

Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
This commit is contained in:
Leonardo de Moura 2014-05-01 10:41:53 -07:00
parent a5ae4b6570
commit 6fb7039746
2 changed files with 16 additions and 42 deletions

View file

@ -7,7 +7,6 @@ Author: Leonardo de Moura
#include "util/interrupt.h"
#include "util/lbool.h"
#include "kernel/converter.h"
#include "kernel/max_sharing.h"
#include "kernel/expr_maps.h"
#include "kernel/instantiate.h"
#include "kernel/free_vars.h"
@ -39,9 +38,8 @@ struct default_converter : public converter {
optional<module_idx> m_module_idx;
bool m_memoize;
name_set m_extra_opaque;
max_sharing_fn m_sharing;
expr_map<expr> m_whnf_core_cache;
expr_map<expr> m_whnf_cache;
expr_struct_map<expr> m_whnf_core_cache;
expr_struct_map<expr> m_whnf_cache;
default_converter(environment const & env, optional<module_idx> mod_idx, bool memoize, name_set const & extra_opaque):
m_env(env), m_module_idx(mod_idx), m_memoize(memoize), m_extra_opaque(extra_opaque) {}
@ -58,38 +56,21 @@ struct default_converter : public converter {
virtual void add_cnstr(constraint const & c) { m_ctx.add_cnstr(c); }
};
bool check_memoized(expr const & e) const { return !m_memoize || m_sharing.already_processed(e); }
expr max_sharing(expr const & e) { return m_memoize ? m_sharing(e) : e; }
expr instantiate(expr const & e, unsigned n, expr const * s) { return max_sharing(lean::instantiate(e, n, s)); }
expr instantiate(expr const & e, expr const & s) { return max_sharing(lean::instantiate(e, s)); }
expr mk_app(expr const & f, unsigned num, expr const * args) { return max_sharing(lean::mk_app(f, num, args)); }
expr mk_app(expr const & f, expr const & a) { return max_sharing(lean::mk_app(f, a)); }
expr mk_rev_app(expr const & f, unsigned num, expr const * args) { return max_sharing(lean::mk_rev_app(f, num, args)); }
expr mk_app_vars(expr const & f, unsigned num) { return max_sharing(lean::mk_app_vars(f, num)); }
optional<expr> expand_macro(expr const & m, context & c) {
lean_assert(is_macro(m));
extended_context xctx(*this, c);
if (auto new_m = macro_def(m).expand(macro_num_args(m), macro_args(m), xctx))
return some_expr(max_sharing(*new_m));
else
return none_expr();
}
expr instantiate_params(expr const & e, param_names const & ps, levels const & ls) {
return max_sharing(lean::instantiate_params(e, ps, ls));
return macro_def(m).expand(macro_num_args(m), macro_args(m), xctx);
}
/** \brief Apply normalizer extensions to \c e. */
optional<expr> norm_ext(expr const & e, context & c) {
extended_context xctx(*this, c);
if (auto new_e = m_env.norm_ext()(e, xctx))
return some_expr(max_sharing(*new_e));
else
return none_expr();
return m_env.norm_ext()(e, xctx);
}
/** \brief Weak head normal form core procedure. It does not perform delta reduction nor normalization extensions. */
expr whnf_core(expr const & e, context & c) {
check_system("whnf");
lean_assert(check_memoized(e));
// handle easy cases
switch (e.kind()) {
@ -267,7 +248,6 @@ struct default_converter : public converter {
expr e = e_prime;
// check cache
if (m_memoize) {
e = max_sharing(e);
auto it = m_whnf_cache.find(e);
if (it != m_whnf_cache.end())
return it->second;
@ -295,7 +275,7 @@ struct default_converter : public converter {
if (is_pi(t_s)) {
// new_s := lambda x : domain(t_s), s x
expr new_s = mk_lambda(c.mk_fresh_name(), binder_domain(t_s), mk_app(lift_free_vars(s, 1), mk_var(0)));
return is_def_eq_core(t, new_s, c, jst);
return is_def_eq(t, new_s, c, jst);
} else {
return false;
}
@ -328,7 +308,7 @@ struct default_converter : public converter {
do {
expr var_t_type = instantiate(binder_domain(t), subst.size(), subst.data());
expr var_s_type = instantiate(binder_domain(s), subst.size(), subst.data());
if (!is_def_eq_core(var_t_type, var_s_type, c, jst))
if (!is_def_eq(var_t_type, var_s_type, c, jst))
return false;
subst.push_back(mk_local(c.mk_fresh_name() + binder_name(s), var_s_type));
t = binder_body(t);
@ -387,7 +367,7 @@ struct default_converter : public converter {
context::disable_cnstrs_scope scope(c);
try {
while (is_app(t) && is_app(s)) {
if (!is_def_eq_core(app_arg(t), app_arg(s), c, jst))
if (!is_def_eq(app_arg(t), app_arg(s), c, jst))
return false;
t = app_fn(t);
s = app_fn(s);
@ -478,21 +458,21 @@ struct default_converter : public converter {
expr it2 = s_n;
bool ok = true;
do {
if (!is_def_eq_core(app_arg(it1), app_arg(it2), c, jst)) {
if (!is_def_eq(app_arg(it1), app_arg(it2), c, jst)) {
ok = false;
break;
}
it1 = app_fn(it1);
it2 = app_fn(it2);
} while (is_app(it1) && is_app(it2));
if (ok && is_def_eq_core(it1, it2, c, jst))
if (ok && is_def_eq(it1, it2, c, jst))
return true;
}
if (m_env.proof_irrel()) {
// Proof irrelevance support
expr t_type = c.infer_type(t);
return is_prop(t_type, c) && is_def_eq_core(t_type, c.infer_type(s), c, jst);
return is_prop(t_type, c) && is_def_eq(t_type, c.infer_type(s), c, jst);
}
return false;
@ -502,16 +482,12 @@ struct default_converter : public converter {
return whnf(c.infer_type(e), c) == Bool;
}
bool is_def_eq_core(expr const & t, expr const & s, context & c, delayed_justification & j) {
virtual bool is_def_eq(expr const & t, expr const & s, context & c, delayed_justification & j) {
return is_conv(t, s, true, c, j);
}
virtual bool is_conv(expr const & t, expr const & s, context & c, delayed_justification & j) {
return is_conv(max_sharing(t), max_sharing(s), false, c, j);
}
virtual bool is_def_eq(expr const & t, expr const & s, context & c, delayed_justification & j) {
return is_def_eq_core(max_sharing(t), max_sharing(s), c, j);
return is_conv(t, s, false, c, j);
}
};

View file

@ -65,7 +65,7 @@ struct type_checker::imp {
name_generator m_gen;
constraint_handler & m_chandler;
std::unique_ptr<converter> m_conv;
expr_map<expr> m_infer_type_cache;
expr_struct_map<expr> m_infer_type_cache;
converter_context m_conv_ctx;
type_checker_context m_tc_ctx;
// The following mapping is used to store the relationship
@ -320,9 +320,7 @@ struct type_checker::imp {
lean_assert(closed(e));
check_system("type checker");
bool shared = false;
if (m_memoize && is_shared(e)) {
shared = true;
if (m_memoize) {
auto it = m_infer_type_cache.find(e);
if (it != m_infer_type_cache.end())
return it->second;
@ -418,7 +416,7 @@ struct type_checker::imp {
break;
}
if (m_memoize && shared)
if (m_memoize)
m_infer_type_cache.insert(mk_pair(e, r));
return r;