fix(kernel/type_checker): is_opaque predicate

Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
This commit is contained in:
Leonardo de Moura 2014-04-23 10:51:39 -07:00
parent a3554c85fe
commit cdbef0bf15
2 changed files with 41 additions and 7 deletions

View file

@ -17,14 +17,16 @@ struct type_checker::imp {
environment m_env; environment m_env;
name_generator m_gen; name_generator m_gen;
constraint_handler & m_chandler; constraint_handler & m_chandler;
optional<module_idx> m_module_idx;
bool m_memoize; bool m_memoize;
name_set m_extra_opaque; name_set m_extra_opaque;
max_sharing_fn m_sharing; max_sharing_fn m_sharing;
expr_map<expr> m_cache; expr_map<expr> m_cache;
expr_map<expr> m_whnf_cache; expr_map<expr> m_whnf_cache;
imp(environment const & env, name_generator const & g, constraint_handler & h, bool memoize, name_set const & extra_opaque): imp(environment const & env, name_generator const & g, constraint_handler & h,
m_env(env), m_gen(g), m_chandler(h), m_memoize(memoize), m_extra_opaque(extra_opaque) {} optional<module_idx> mod_idx, bool memoize, name_set const & extra_opaque):
m_env(env), m_gen(g), m_chandler(h), m_module_idx(mod_idx), m_memoize(memoize), m_extra_opaque(extra_opaque) {}
expr max_sharing(expr const & e) { return m_memoize ? m_sharing(e) : 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, unsigned n, expr const * s) { return max_sharing(lean::instantiate(e, n, s)); }
@ -115,11 +117,40 @@ struct type_checker::imp {
return r; return r;
} }
/**
\brief Predicate for deciding whether \c d is an opaque definition or not.
Here is the basic idea:
1) Each definition has an opaque flag. This flag cannot be modified after a definition is added to the environment.
The opaque flag affects the convertability check. The idea is to minimize the number of delta-reduction steps.
We also believe it increases the modularity of Lean developments by minimizing the dependency on how things are defined.
We should view non-opaque definitions as "inline definitions" used in programming languages such as C++.
2) Whenever type checking an expression, the user can provide an additional set of definition names (m_extra_opaque) that
should be considered opaque. Note that, if \c t type checks when using an extra_opaque set S, then t also type checks
(modulo resource constraints) with the empty set. Again, the purpose of extra_opaque is to mimimize the number
of delta-reduction steps.
3) To be able to prove theorems about an opaque definition, we treat an opaque definition D in a module M as
transparent when we are type checking another definition/theorem D' also in M. This rule only applies if
D is not a theorem, nor D is in the set m_extra_opaque. To implement this feature, this class has a field
m_module_idx that is not none when this rule should be applied.
*/
bool is_opaque(definition const & d) const {
lean_assert(d.is_definition());
if (d.is_theorem()) return true; // theorems are always opaque
if (m_extra_opaque.contains(d.get_name())) return true; // extra_opaque set overrides opaque flag
if (!d.is_opaque()) return false; // d is a transparent definition
if (m_module_idx && d.get_module_idx() == *m_module_idx) return false; // the opaque definitions in module_idx are considered transparent
return true; // d is opaque
}
/** \brief Expand \c e if it is non-opaque constant with weight >= w */ /** \brief Expand \c e if it is non-opaque constant with weight >= w */
expr unfold_name_core(expr e, unsigned w) { expr unfold_name_core(expr e, unsigned w) {
if (is_constant(e)) { if (is_constant(e)) {
if (auto d = m_env.find(const_name(e))) { if (auto d = m_env.find(const_name(e))) {
if (d->is_definition() && !d->is_opaque() && d->get_weight() >= w && !m_extra_opaque.contains(d->get_name())) if (d->is_definition() && !is_opaque(*d) && d->get_weight() >= w)
return unfold_name_core(instantiate_params(d->get_value(), d->get_params(), const_level_params(e)), w); return unfold_name_core(instantiate_params(d->get_value(), d->get_params(), const_level_params(e)), w);
} }
} }
@ -130,8 +161,7 @@ struct type_checker::imp {
\brief Expand constants and application where the function is a constant. \brief Expand constants and application where the function is a constant.
The unfolding is only performend if the constant corresponds to The unfolding is only performend if the constant corresponds to
a non-opaque definition with weight >= w, and it is not in the a non-opaque definition with weight >= w.
set of extra_opaque constants.
*/ */
expr unfold_names(expr const & e, unsigned w) { expr unfold_names(expr const & e, unsigned w) {
if (is_app(e)) { if (is_app(e)) {

View file

@ -34,15 +34,19 @@ public:
type checker are based on the given name generator. type checker are based on the given name generator.
The following set of options is supported: The following set of options is supported:
- mod_idx: if a module index is provided, then opaque definitions in module mod_idx
are considered transparent if they are not in extra_opaque.
- memoize: inferred types are memoized/cached - memoize: inferred types are memoized/cached
- extra_opaque: additional definitions that should be treated as opaque - extra_opaque: additional definitions that should be treated as opaque
*/ */
type_checker(environment const & env, name_generator const & g, constraint_handler & h, bool memoize = false, name_set const & extra_opaque = name_set()); type_checker(environment const & env, name_generator const & g, constraint_handler & h,
optional<module_idx> mod_idx = optional<module_idx>(), bool memoize = false, name_set const & extra_opaque = name_set());
/** /**
\brief Similar to the previous constructor, but if a method tries to create a constraint, then an \brief Similar to the previous constructor, but if a method tries to create a constraint, then an
exception is thrown. exception is thrown.
*/ */
type_checker(environment const & env, name_generator const & g, bool memoize = false, name_set const & extra_opaque = name_set()); type_checker(environment const & env, name_generator const & g,
optional<module_idx> mod_idx = optional<module_idx>(), bool memoize = false, name_set const & extra_opaque = name_set());
~type_checker(); ~type_checker();
/** /**