lean2/src/library/coercion.cpp

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/*
Copyright (c) 2014 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Leonardo de Moura
*/
#include <utility>
#include <string>
#include "util/rb_map.h"
#include "util/sstream.h"
#include "kernel/instantiate.h"
#include "library/coercion.h"
#include "library/module.h"
#include "library/kernel_serializer.h"
#include "library/kernel_bindings.h"
#include "library/scoped_ext.h"
namespace lean {
coercion_class coercion_class::mk_user(name n) { return coercion_class(coercion_class_kind::User, n); }
coercion_class coercion_class::mk_sort() { return coercion_class(coercion_class_kind::Sort); }
coercion_class coercion_class::mk_fun() { return coercion_class(coercion_class_kind::Fun); }
bool operator==(coercion_class const & c1, coercion_class const & c2) {
return c1.m_kind == c2.m_kind && c1.m_name == c2.m_name;
}
bool operator!=(coercion_class const & c1, coercion_class const & c2) {
return !(c1 == c2);
}
std::ostream & operator<<(std::ostream & out, coercion_class const & cls) {
switch (cls.kind()) {
case coercion_class_kind::User: out << cls.get_name(); break;
case coercion_class_kind::Sort: out << "Sort-class"; break;
case coercion_class_kind::Fun: out << "Function-class"; break;
}
return out;
}
struct coercion_class_cmp_fn {
int operator()(coercion_class const & c1, coercion_class const & c2) const {
if (c1.kind() != c2.kind())
return c1.kind() < c2.kind() ? -1 : 1;
else
return quick_cmp(c1.get_name(), c2.get_name());
}
};
struct coercion_info {
expr m_fun;
expr m_fun_type;
level_param_names m_level_params;
unsigned m_num_args;
coercion_class m_to;
coercion_info() {}
coercion_info(expr const & f, expr const & f_type, level_param_names const & ls, unsigned num, coercion_class const & cls):
m_fun(f), m_fun_type(f_type), m_level_params(ls), m_num_args(num), m_to(cls) {}
};
struct coercion_state {
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name_map<list<coercion_info>> m_coercion_info;
// m_from and m_to contain "direct" coercions
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typedef std::tuple<coercion_class, expr, expr> from_data;
name_map<list<from_data>> m_from; // map user-class -> list of (class, coercion-fun)
rb_map<coercion_class, list<name>, coercion_class_cmp_fn> m_to;
name_map<pair<name, unsigned>> m_coercions; // map coercion -> (from-class, num-args)
template<typename F>
void for_each_info(name const & from, coercion_class const & to, F && f) {
auto it = m_coercion_info.find(from);
lean_assert(it);
for (coercion_info info : *it) {
if (info.m_to == to) {
f(info);
}
}
}
void update_from_to(type_checker & tc, name const & C, coercion_class const & D,
expr const & f, expr const & f_type, io_state const & ios) {
auto it1 = m_from.find(C);
if (!it1) {
m_from.insert(C, to_list(from_data(D, f, f_type)));
} else {
coercion_class D_it; expr f_it, f_type_it;
auto it = it1->begin();
auto end = it1->end();
for (; it != end; ++it) {
std::tie(D_it, f_it, f_type_it) = *it;
if (D_it == D && tc.is_def_eq(f_type_it, f_type).first)
break;
}
if (it == end)
m_from.insert(C, cons(from_data(D, f, f_type), *it1));
else if (std::get<1>(*it) != f)
ios.get_diagnostic_channel() << "replacing the coercion from '" << C << "' to '" << D << "'\n";
}
auto it2 = m_to.find(D);
if (!it2)
m_to.insert(D, to_list(C));
else if (std::find(it2->begin(), it2->end(), C) == it2->end())
m_to.insert(D, cons(C, *it2));
}
};
static void check_pi(name const & f, expr const & t) {
if (!is_pi(t))
throw exception(sstream() << "invalid coercion, '" << f << "' is not function");
}
// similar to check_pi, but produces a more informative message
static void check_valid_coercion(name const & f, expr const & t) {
if (!is_pi(t)) {
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throw exception(sstream() << "invalid coercion, type of '" << f
<< "' does not match any of the allowed expected types for coercions\n"
<< " Pi (x_1 : A_1) ... (x_n : A_n) (y: C x_1 ... x_n), D t_1 ... t_m\n"
<< " Pi (x_1 : A_1) ... (x_n : A_n) (y: C x_1 ... x_n), Type\n"
<< " Pi (x_1 : A_1) ... (x_n : A_n) (y: C x_1 ... x_n), A -> B");
}
}
/** \brief Return true iff args contains Var(0), Var(1), ..., Var(args.size() - 1) */
static bool check_var_args(buffer<expr> const & args) {
for (unsigned i = 0; i < args.size(); i++) {
if (!is_var(args[i]) || var_idx(args[i]) != i)
return false;
}
return true;
}
/** \brief Return true iff param_id(levels[i]) == level_params[i] */
static bool check_levels(levels ls, level_param_names ps) {
while (!is_nil(ls) && !is_nil(ps)) {
if (!is_param(head(ls)))
return false;
if (param_id(head(ls)) != head(ps))
return false;
ls = tail(ls);
ps = tail(ps);
}
return is_nil(ls) && is_nil(ps);
}
optional<coercion_class> type_to_coercion_class(expr const & t) {
if (is_sort(t)) {
return optional<coercion_class>(coercion_class::mk_sort());
} else if (is_pi(t)) {
return optional<coercion_class>(coercion_class::mk_fun());
} else {
expr const & C = get_app_fn(t);
if (is_constant(C))
return optional<coercion_class>(coercion_class::mk_user(const_name(C)));
else
return optional<coercion_class>();
}
}
typedef std::tuple<name, coercion_class, expr> arrow;
typedef list<arrow> arrows;
static bool contains(type_checker & tc, arrows const & as, name const & C, coercion_class const & D, expr const & f_type) {
name C_it; coercion_class D_it; expr f_type_it;
for (arrow const & a : as) {
std::tie(C_it, D_it, f_type_it) = a;
if (C == C_it && D == D_it && tc.is_def_eq(f_type_it, f_type).first)
return true;
}
return false;
}
static arrows insert(arrows const & a, name const & C, coercion_class const & D, expr const & f_type) {
return arrows(arrow(C, D, f_type), a);
}
struct add_coercion_fn {
type_checker m_tc;
coercion_state m_state;
arrows m_visited;
io_state const & m_ios;
void add_coercion_trans(name const & C,
level_param_names const & f_level_params, expr const & f, expr const & f_type, unsigned f_num_args,
level_param_names const & g_level_params, expr g, expr const & g_type, unsigned g_num_args,
coercion_class const & g_class) {
expr t = f_type;
buffer<expr> args;
for (unsigned i = 0; i <= f_num_args; i++)
args.push_back(mk_var(i));
expr f_app = apply_beta(f, args.size(), args.data());
buffer<name> f_arg_names;
buffer<expr> f_arg_types;
while (is_pi(t)) {
f_arg_names.push_back(binding_name(t));
f_arg_types.push_back(binding_domain(t));
t = binding_body(t);
}
expr D_app = t;
buffer<expr> gf_args;
gf_args.push_back(f_app);
expr D_cnst = get_app_rev_args(D_app, gf_args);
if (gf_args.size() != g_num_args + 1)
return;
if (length(const_levels(D_cnst)) != length(g_level_params))
return;
// C >-> D >-> E
g = instantiate_univ_params(g, g_level_params, const_levels(D_cnst));
expr gf = apply_beta(g, gf_args.size(), gf_args.data());
expr gf_type = g_type;
while (is_pi(gf_type))
gf_type = binding_body(gf_type);
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gf_type = instantiate(instantiate_univ_params(gf_type, g_level_params,
const_levels(D_cnst)), gf_args.size(), gf_args.data());
unsigned i = f_arg_types.size();
while (i > 0) {
--i;
gf = mk_lambda(f_arg_names[i], f_arg_types[i], gf);
gf_type = mk_pi(f_arg_names[i], f_arg_types[i], gf_type);
}
add_coercion(C, gf, gf_type, f_level_params, f_num_args, g_class);
}
void add_coercion_trans_to(name const & C, expr const & f, expr const & f_type,
level_param_names const & ls, unsigned num_args, coercion_class const & cls) {
// apply transitivity using ext.m_to
coercion_class C_cls = coercion_class::mk_user(C);
auto it1 = m_state.m_to.find(C_cls);
if (!it1)
return;
for (name const & B : *it1) {
m_state.for_each_info(B, C_cls, [&](coercion_info const & info) {
// B >-> C >-> D
add_coercion_trans(B, info.m_level_params, info.m_fun, info.m_fun_type, info.m_num_args,
ls, f, f_type, num_args, cls);
});
}
}
void add_coercion_trans_from(name const & C, expr const & f, expr const & f_type,
level_param_names const & ls, unsigned num_args, coercion_class const & cls) {
// apply transitivity using ext.m_from
if (cls.kind() != coercion_class_kind::User)
return; // nothing to do Sort and Fun classes are terminal
name const & D = cls.get_name();
auto it = m_state.m_from.find(D);
if (!it)
return;
for (auto const & p : *it) {
coercion_class E = std::get<0>(p);
m_state.for_each_info(D, E, [&](coercion_info const & info) {
// C >-> D >-> E
add_coercion_trans(C, ls, f, f_type, num_args,
info.m_level_params, info.m_fun, info.m_fun_type, info.m_num_args, info.m_to);
});
}
}
void add_coercion_core(name const & C, expr const & f, expr const & f_type,
level_param_names const & ls, unsigned num_args, coercion_class const & cls) {
auto it = m_state.m_coercion_info.find(C);
if (!it) {
list<coercion_info> infos(coercion_info(f, f_type, ls, num_args, cls));
m_state.m_coercion_info.insert(C, infos);
} else {
list<coercion_info> infos = *it;
infos = filter(infos, [&](coercion_info const & info) {
return info.m_to != cls || !m_tc.is_def_eq(info.m_fun_type, f_type).first;
});
infos = cons(coercion_info(f, f_type, ls, num_args, cls), infos);
m_state.m_coercion_info.insert(C, infos);
}
if (is_constant(f))
m_state.m_coercions.insert(const_name(f), mk_pair(C, num_args));
}
void add_coercion(name const & C, expr const & f, expr const & f_type,
level_param_names const & ls, unsigned num_args, coercion_class const & cls) {
if (contains(m_tc, m_visited, C, cls, f_type))
return;
if (cls.kind() == coercion_class_kind::User && cls.get_name() == C)
return;
m_visited = insert(m_visited, C, cls, f_type);
add_coercion_core(C, f, f_type, ls, num_args, cls);
add_coercion_trans_to(C, f, f_type, ls, num_args, cls);
add_coercion_trans_from(C, f, f_type, ls, num_args, cls);
}
add_coercion_fn(environment const & env, coercion_state const & s, io_state const & ios):
m_tc(env), m_state(s), m_ios(ios) {}
coercion_state operator()(name const & C, expr const & f, expr const & f_type,
level_param_names const & ls, unsigned num_args, coercion_class const & cls) {
add_coercion(C, f, f_type, ls, num_args, cls);
m_state.update_from_to(m_tc, C, cls, f, f_type, m_ios);
return m_state;
}
};
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coercion_state add_coercion(environment const & env, io_state const & ios, coercion_state const & st,
name const & f, name const & C) {
declaration d = env.get(f);
unsigned num = 0;
buffer<expr> args;
expr t = d.get_type();
check_pi(f, t);
while (true) {
args.clear();
expr const & C_fn = get_app_rev_args(binding_domain(t), args);
if (is_constant(C_fn) &&
const_name(C_fn) == C &&
num == args.size() &&
check_var_args(args) &&
check_levels(const_levels(C_fn), d.get_univ_params())) {
expr fn = mk_constant(f, const_levels(C_fn));
optional<coercion_class> cls = type_to_coercion_class(binding_body(t));
if (!cls)
throw exception(sstream() << "invalid coercion, '" << f << "' cannot be used as a coercion from '" << C << "'");
else if (cls->kind() == coercion_class_kind::User && cls->get_name() == C)
throw exception(sstream() << "invalid coercion, '" << f << "' is a coercion from '" << C << "' to itself");
return add_coercion_fn(env, st, ios)(C, fn, d.get_type(), d.get_univ_params(), num, *cls);
}
t = binding_body(t);
num++;
check_valid_coercion(f, t);
}
}
static name * g_class_name = nullptr;
static std::string * g_key = nullptr;
typedef pair<name, name> coercion_entry;
struct coercion_config {
typedef coercion_state state;
typedef coercion_entry entry;
static void add_entry(environment const & env, io_state const & ios, state & s, entry const & e) {
s = add_coercion(env, ios, s, e.first, e.second);
}
static name const & get_class_name() {
return *g_class_name;
}
static std::string const & get_serialization_key() {
return *g_key;
}
static void write_entry(serializer & s, entry const & e) {
s << e.first << e.second;
}
static entry read_entry(deserializer & d) {
entry e;
d >> e.first >> e.second;
return e;
}
static optional<unsigned> get_fingerprint(entry const & e) {
return some(hash(e.first.hash(), e.second.hash()));
}
};
template class scoped_ext<coercion_config>;
typedef scoped_ext<coercion_config> coercion_ext;
void initialize_coercion() {
g_class_name = new name("coercions");
g_key = new std::string("coerce");
coercion_ext::initialize();
}
void finalize_coercion() {
coercion_ext::finalize();
delete g_key;
delete g_class_name;
}
environment add_coercion(environment const & env, name const & f, name const & C, io_state const & ios, bool persistent) {
return coercion_ext::add_entry(env, ios, coercion_entry(f, C), persistent);
}
environment add_coercion(environment const & env, name const & f, io_state const & ios, bool persistent) {
declaration d = env.get(f);
expr t = d.get_type();
check_pi(f, t);
buffer<name> Cs; // possible Cs
while (is_pi(t)) {
expr d = get_app_fn(binding_domain(t));
if (is_constant(d))
Cs.push_back(const_name(d));
t = binding_body(t);
}
if (Cs.empty())
throw exception(sstream() << "invalid coercion, '" << f << "' cannot be used as a coercion");
unsigned i = Cs.size();
while (i > 0) {
--i;
if (i == 0) {
// last alternative
return add_coercion(env, f, Cs[i], ios, persistent);
} else {
try {
return add_coercion(env, f, Cs[i], ios, persistent);
} catch (exception &) {
// failed, keep trying...
}
}
}
lean_unreachable(); // LCOV_EXCL_LINE
}
optional<pair<name, unsigned>> is_coercion(environment const & env, name const & f) {
coercion_state const & ext = coercion_ext::get_state(env);
if (auto it = ext.m_coercions.find(f))
return optional<pair<name, unsigned>>(*it);
else
return optional<pair<name, unsigned>>();
}
optional<pair<name, unsigned>> is_coercion(environment const & env, expr const & f) {
if (!is_constant(f))
return optional<pair<name, unsigned>>();
return is_coercion(env, const_name(f));
}
bool has_coercions_to(environment const & env, name const & D) {
coercion_state const & ext = coercion_ext::get_state(env);
auto it = ext.m_to.find(coercion_class::mk_user(D));
return it && !is_nil(*it);
}
bool has_coercions_to_sort(environment const & env) {
coercion_state const & ext = coercion_ext::get_state(env);
auto it = ext.m_to.find(coercion_class::mk_sort());
return it && !is_nil(*it);
}
bool has_coercions_to_fun(environment const & env) {
coercion_state const & ext = coercion_ext::get_state(env);
auto it = ext.m_to.find(coercion_class::mk_fun());
return it && !is_nil(*it);
}
bool has_coercions_from(environment const & env, name const & C) {
coercion_state const & ext = coercion_ext::get_state(env);
return ext.m_coercion_info.contains(C);
}
bool has_coercions_from(environment const & env, expr const & C) {
expr const & C_fn = get_app_fn(C);
if (!is_constant(C_fn))
return false;
coercion_state const & ext = coercion_ext::get_state(env);
auto it = ext.m_coercion_info.find(const_name(C_fn));
if (!it)
return false;
list<coercion_info> const & cs = *it;
return
head(cs).m_num_args == get_app_num_args(C) &&
length(head(cs).m_level_params) == length(const_levels(C_fn));
}
list<expr> get_coercions(environment const & env, expr const & C, coercion_class const & D) {
buffer<expr> args;
expr const & C_fn = get_app_rev_args(C, args);
if (!is_constant(C_fn))
return list<expr>();
coercion_state const & ext = coercion_ext::get_state(env);
auto it = ext.m_coercion_info.find(const_name(C_fn));
if (!it)
return list<expr>();
buffer<expr> r;
for (coercion_info const & info : *it) {
if (info.m_to == D && info.m_num_args == args.size() && length(info.m_level_params) == length(const_levels(C_fn))) {
expr f = instantiate_univ_params(info.m_fun, info.m_level_params, const_levels(C_fn));
r.push_back(apply_beta(f, args.size(), args.data()));
}
}
return to_list(r.begin(), r.end());
}
list<expr> get_coercions(environment const & env, expr const & C, name const & D) {
return get_coercions(env, C, coercion_class::mk_user(D));
}
list<expr> get_coercions_to_sort(environment const & env, expr const & C) {
return get_coercions(env, C, coercion_class::mk_sort());
}
list<expr> get_coercions_to_fun(environment const & env, expr const & C) {
return get_coercions(env, C, coercion_class::mk_fun());
}
bool get_coercions_from(environment const & env, expr const & C, buffer<std::tuple<coercion_class, expr, expr>> & result) {
buffer<expr> args;
expr const & C_fn = get_app_rev_args(C, args);
if (!is_constant(C_fn))
return false;
coercion_state const & ext = coercion_ext::get_state(env);
auto it = ext.m_coercion_info.find(const_name(C_fn));
if (!it)
return false;
bool r = false;
for (coercion_info const & info : *it) {
if (info.m_num_args == args.size() &&
length(info.m_level_params) == length(const_levels(C_fn))) {
expr f = instantiate_univ_params(info.m_fun, info.m_level_params, const_levels(C_fn));
expr c = apply_beta(f, args.size(), args.data());
expr t = instantiate_univ_params(info.m_fun_type, info.m_level_params, const_levels(C_fn));
for (unsigned i = 0; i < args.size(); i++) t = binding_body(t);
t = instantiate(t, args.size(), args.data());
result.emplace_back(info.m_to, c, t);
r = true;
}
}
return r;
}
template<typename F>
void for_each_coercion(environment const & env, F && f) {
coercion_state const & ext = coercion_ext::get_state(env);
ext.m_coercion_info.for_each([&](name const & C, list<coercion_info> const & infos) {
for (auto const & info : infos) {
f(C, info);
}
});
}
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void for_each_coercion_user(environment const & env, coercion_user_fn const & f) {
for_each_coercion(env, [&](name const & C, coercion_info const & info) {
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if (info.m_to.kind() == coercion_class_kind::User)
f(C, info.m_to.get_name(), info.m_fun, info.m_level_params, info.m_num_args);
});
}
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void for_each_coercion_sort(environment const & env, coercion_sort_fn const & f) {
for_each_coercion(env, [&](name const & C, coercion_info const & info) {
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if (info.m_to.kind() == coercion_class_kind::Sort)
f(C, info.m_fun, info.m_level_params, info.m_num_args);
});
}
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void for_each_coercion_fun(environment const & env, coercion_fun_fn const & f) {
for_each_coercion(env, [&](name const & C, coercion_info const & info) {
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if (info.m_to.kind() == coercion_class_kind::Fun)
f(C, info.m_fun, info.m_level_params, info.m_num_args);
});
}
static int add_coercion(lua_State * L) {
int nargs = lua_gettop(L);
if (nargs == 2)
return push_environment(L, add_coercion(to_environment(L, 1), to_name_ext(L, 2), get_io_state(L)));
else if (nargs == 3 && is_io_state(L, 3))
return push_environment(L, add_coercion(to_environment(L, 1), to_name_ext(L, 2), to_io_state(L, 3)));
else if (nargs == 3)
return push_environment(L, add_coercion(to_environment(L, 1), to_name_ext(L, 2), to_name_ext(L, 3), get_io_state(L)));
else
return push_environment(L, add_coercion(to_environment(L, 1), to_name_ext(L, 2), to_name_ext(L, 3), to_io_state(L, 4)));
}
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static int is_coercion(lua_State * L) {
optional<pair<name, unsigned>> r;
if (is_expr(L, 2))
r = is_coercion(to_environment(L, 1), to_expr(L, 2));
else
r = is_coercion(to_environment(L, 1), to_name_ext(L, 2));
if (r) {
push_name(L, r->first);
push_integer(L, r->second);
return 2;
} else {
return 0;
}
}
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static int has_coercions_from(lua_State * L) {
if (is_expr(L, 2))
return push_boolean(L, has_coercions_from(to_environment(L, 1), to_expr(L, 2)));
else
return push_boolean(L, has_coercions_from(to_environment(L, 1), to_name_ext(L, 2)));
}
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static int get_coercions(lua_State * L) {
return push_list_expr(L, get_coercions(to_environment(L, 1), to_expr(L, 2), to_name_ext(L, 3)));
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}
static int get_coercions_to_sort(lua_State * L) {
return push_list_expr(L, get_coercions_to_sort(to_environment(L, 1), to_expr(L, 2)));
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}
static int get_coercions_to_fun(lua_State * L) {
return push_list_expr(L, get_coercions_to_fun(to_environment(L, 1), to_expr(L, 2)));
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}
static int get_coercions_from(lua_State * L) {
buffer<std::tuple<coercion_class, expr, expr>> r;
get_coercions_from(to_environment(L, 1), to_expr(L, 2), r);
lua_newtable(L);
int i = 1;
for (auto p : r) {
lua_newtable(L);
coercion_class c = std::get<0>(p);
push_integer(L, static_cast<unsigned>(c.kind()));
lua_rawseti(L, -2, 1);
if (c.kind() == coercion_class_kind::User) {
push_name(L, c.get_name());
} else {
push_nil(L);
}
lua_rawseti(L, -2, 2);
push_expr(L, std::get<1>(p));
lua_rawseti(L, -2, 3);
push_expr(L, std::get<2>(p));
lua_rawseti(L, -2, 4);
lua_rawseti(L, -2, i);
i = i + 1;
}
return 1;
}
static int for_each_coercion(lua_State * L, coercion_class_kind k) {
environment env = to_environment(L, 1);
luaL_checktype(L, 2, LUA_TFUNCTION); // user-fun
for_each_coercion(env, [&](name const & C, coercion_info const & info) {
if (info.m_to.kind() != k)
return;
lua_pushvalue(L, 2); // push user-fun
push_name(L, C);
int nargs = 4;
if (info.m_to.kind() == coercion_class_kind::User) {
push_name(L, info.m_to.get_name());
nargs++;
}
push_expr(L, info.m_fun);
push_list_name(L, info.m_level_params);
push_integer(L, info.m_num_args);
pcall(L, nargs, 0, 0);
});
return 0;
}
static int for_each_coercion_user(lua_State * L) { return for_each_coercion(L, coercion_class_kind::User); }
static int for_each_coercion_sort(lua_State * L) { return for_each_coercion(L, coercion_class_kind::Sort); }
static int for_each_coercion_fun(lua_State * L) { return for_each_coercion(L, coercion_class_kind::Fun); }
void open_coercion(lua_State * L) {
SET_GLOBAL_FUN(add_coercion, "add_coercion");
SET_GLOBAL_FUN(is_coercion, "is_coercion");
SET_GLOBAL_FUN(has_coercions_from, "has_coercions_from");
SET_GLOBAL_FUN(get_coercions, "get_coercions");
SET_GLOBAL_FUN(get_coercions_to_sort, "get_coercions_to_sort");
SET_GLOBAL_FUN(get_coercions_to_fun, "get_coercions_to_fun");
SET_GLOBAL_FUN(get_coercions_from, "get_coercions_from");
SET_GLOBAL_FUN(for_each_coercion_user, "for_each_coercion_user");
SET_GLOBAL_FUN(for_each_coercion_sort, "for_each_coercion_sort");
SET_GLOBAL_FUN(for_each_coercion_fun, "for_each_coercion_fun");
}
}