/* Test GNU Emacs modules.
Copyright 2015-2020 Free Software Foundation, Inc.
This file is part of GNU Emacs.
GNU Emacs is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or (at
your option) any later version.
GNU Emacs is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>. */
#include "config.h"
#undef NDEBUG
#include <assert.h>
#include <errno.h>
#include <limits.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#ifdef WINDOWSNT
/* Cannot include <process.h> because of the local header by the same
name, sigh. */
uintptr_t _beginthread (void (__cdecl *)(void *), unsigned, void *);
# if !defined __x86_64__
# define ALIGN_STACK __attribute__((force_align_arg_pointer))
# endif
# include <windows.h> /* for Sleep */
#else /* !WINDOWSNT */
# include <pthread.h>
# include <unistd.h>
#endif
#include <gmp.h>
#include <emacs-module.h>
#include "timespec.h"
int plugin_is_GPL_compatible;
#if INTPTR_MAX <= 0
# error "INTPTR_MAX misconfigured"
#elif INTPTR_MAX <= INT_MAX || INTPTR_MAX <= LONG_MAX
# define pT "ld"
# define pZ "lu"
# define T_TYPE long
# define Z_TYPE unsigned long
#elif INTPTR_MAX <= INT64_MAX
# ifdef __MINGW32__
# define pT "lld"
# define pZ "llu"
# define T_TYPE long long
# define Z_TYPE unsigned long long
# else
# define pT "ld"
# define pZ "lu"
# define T_TYPE long
# define Z_TYPE unsigned long
# endif
#else
# error "INTPTR_MAX too large"
#endif
/* Smoke test to verify that EMACS_LIMB_MAX is defined. */
_Static_assert (0 < EMACS_LIMB_MAX, "EMACS_LIMB_MAX missing or incorrect");
/* Always return symbol 't'. */
static emacs_value
Fmod_test_return_t (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
return env->intern (env, "t");
}
/* Expose simple sum function. */
static intmax_t
sum (intmax_t a, intmax_t b)
{
return a + b;
}
static emacs_value
Fmod_test_sum (emacs_env *env, ptrdiff_t nargs, emacs_value args[], void *data)
{
assert (nargs == 2);
assert ((uintptr_t) data == 0x1234);
intmax_t a = env->extract_integer (env, args[0]);
intmax_t b = env->extract_integer (env, args[1]);
intmax_t r = sum (a, b);
return env->make_integer (env, r);
}
/* Signal '(error 56). */
static emacs_value
Fmod_test_signal (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
assert (env->non_local_exit_check (env) == emacs_funcall_exit_return);
env->non_local_exit_signal (env, env->intern (env, "error"),
env->make_integer (env, 56));
return NULL;
}
/* Throw '(tag 65). */
static emacs_value
Fmod_test_throw (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
assert (env->non_local_exit_check (env) == emacs_funcall_exit_return);
env->non_local_exit_throw (env, env->intern (env, "tag"),
env->make_integer (env, 65));
return NULL;
}
/* Call argument function, catch all non-local exists and return
either normal result or a list describing the non-local exit. */
static emacs_value
Fmod_test_non_local_exit_funcall (emacs_env *env, ptrdiff_t nargs,
emacs_value args[], void *data)
{
assert (nargs == 1);
emacs_value result = env->funcall (env, args[0], 0, NULL);
emacs_value non_local_exit_symbol, non_local_exit_data;
enum emacs_funcall_exit code
= env->non_local_exit_get (env, &non_local_exit_symbol,
&non_local_exit_data);
switch (code)
{
case emacs_funcall_exit_return:
return result;
case emacs_funcall_exit_signal:
{
env->non_local_exit_clear (env);
emacs_value Flist = env->intern (env, "list");
emacs_value list_args[] = {env->intern (env, "signal"),
non_local_exit_symbol, non_local_exit_data};
return env->funcall (env, Flist, 3, list_args);
}
case emacs_funcall_exit_throw:
{
env->non_local_exit_clear (env);
emacs_value Flist = env->intern (env, "list");
emacs_value list_args[] = {env->intern (env, "throw"),
non_local_exit_symbol, non_local_exit_data};
return env->funcall (env, Flist, 3, list_args);
}
}
/* Never reached. */
return env->intern (env, "nil");;
}
/* Return a global reference. */
static emacs_value
Fmod_test_globref_make (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
/* Make a big string and make it global. */
char str[26 * 100];
for (int i = 0; i < sizeof str; i++)
str[i] = 'a' + (i % 26);
/* We don't need to null-terminate str. */
emacs_value lisp_str = env->make_string (env, str, sizeof str);
return env->make_global_ref (env, lisp_str);
}
/* Create a few global references from arguments and free them. */
static emacs_value
Fmod_test_globref_free (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
emacs_value refs[10];
for (int i = 0; i < 10; i++)
{
refs[i] = env->make_global_ref (env, args[i % nargs]);
}
for (int i = 0; i < 10; i++)
{
env->free_global_ref (env, refs[i]);
}
return env->intern (env, "ok");
}
/* Treat a local reference as global and free it. Module assertions
should detect this case even if a global reference representing the
same object also exists. */
static emacs_value
Fmod_test_globref_invalid_free (emacs_env *env, ptrdiff_t nargs,
emacs_value *args, void *data)
{
emacs_value local = env->make_integer (env, 9876);
env->make_global_ref (env, local);
env->free_global_ref (env, local); /* Not allowed. */
return env->intern (env, "nil");
}
/* Allocate and free global references in a different order. */
static emacs_value
Fmod_test_globref_reordered (emacs_env *env, ptrdiff_t nargs,
emacs_value *args, void *data)
{
emacs_value booleans[2] = {
env->intern (env, "nil"),
env->intern (env, "t"),
};
emacs_value local = env->intern (env, "foo");
emacs_value globals[4] = {
env->make_global_ref (env, local),
env->make_global_ref (env, local),
env->make_global_ref (env, env->intern (env, "foo")),
env->make_global_ref (env, env->intern (env, "bar")),
};
emacs_value elements[4];
for (int i = 0; i < 4; ++i)
elements[i] = booleans[env->eq (env, globals[i], local)];
emacs_value ret = env->funcall (env, env->intern (env, "list"), 4, elements);
env->free_global_ref (env, globals[2]);
env->free_global_ref (env, globals[1]);
env->free_global_ref (env, globals[3]);
env->free_global_ref (env, globals[0]);
return ret;
}
/* Return a copy of the argument string where every 'a' is replaced
with 'b'. */
static emacs_value
Fmod_test_string_a_to_b (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
emacs_value lisp_str = args[0];
ptrdiff_t size = 0;
char * buf = NULL;
env->copy_string_contents (env, lisp_str, buf, &size);
buf = malloc (size);
env->copy_string_contents (env, lisp_str, buf, &size);
for (ptrdiff_t i = 0; i + 1 < size; i++)
if (buf[i] == 'a')
buf[i] = 'b';
emacs_value ret = env->make_string (env, buf, size - 1);
free (buf);
return ret;
}
/* Return a unibyte string. */
static emacs_value
Fmod_test_return_unibyte (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
const char *string = "foo\x00zot";
return env->make_unibyte_string (env, string, 7);
}
/* Embedded pointers in lisp objects. */
/* C struct (pointer to) that will be embedded. */
struct super_struct
{
int amazing_int;
char large_unused_buffer[512];
};
/* Return a new user-pointer to a super_struct, with amazing_int set
to the passed parameter. */
static emacs_value
Fmod_test_userptr_make (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
struct super_struct *p = calloc (1, sizeof *p);
p->amazing_int = env->extract_integer (env, args[0]);
return env->make_user_ptr (env, free, p);
}
/* Return the amazing_int of a passed 'user-pointer to a super_struct'. */
static emacs_value
Fmod_test_userptr_get (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
struct super_struct *p = env->get_user_ptr (env, args[0]);
return env->make_integer (env, p->amazing_int);
}
/* Fill vector in args[0] with value in args[1]. */
static emacs_value
Fmod_test_vector_fill (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
emacs_value vec = args[0];
emacs_value val = args[1];
ptrdiff_t size = env->vec_size (env, vec);
for (ptrdiff_t i = 0; i < size; i++)
env->vec_set (env, vec, i, val);
return env->intern (env, "t");
}
/* Return whether all elements of vector in args[0] are 'eq' to value
in args[1]. */
static emacs_value
Fmod_test_vector_eq (emacs_env *env, ptrdiff_t nargs, emacs_value args[],
void *data)
{
emacs_value vec = args[0];
emacs_value val = args[1];
ptrdiff_t size = env->vec_size (env, vec);
for (ptrdiff_t i = 0; i < size; i++)
if (!env->eq (env, env->vec_get (env, vec, i), val))
return env->intern (env, "nil");
return env->intern (env, "t");
}
static emacs_value invalid_stored_value;
/* The next two functions perform a possibly-invalid operation: they
store a value in a static variable and load it. This causes
undefined behavior if the environment that the value was created
from is no longer live. The module assertions check for this
error. */
static emacs_value
Fmod_test_invalid_store (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
return invalid_stored_value = env->make_integer (env, 123);
}
static emacs_value
Fmod_test_invalid_load (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
return invalid_stored_value;
}
/* The next function works in conjunction with the two previous ones.
It stows away a copy of the object created by
`Fmod_test_invalid_store' in a global reference. Module assertions
should still detect the invalid load of the local reference. */
static emacs_value global_copy_of_invalid_stored_value;
static emacs_value
Fmod_test_invalid_store_copy (emacs_env *env, ptrdiff_t nargs,
emacs_value *args, void *data)
{
emacs_value local = Fmod_test_invalid_store (env, 0, NULL, NULL);
return global_copy_of_invalid_stored_value
= env->make_global_ref (env, local);
}
/* An invalid finalizer: Finalizers are run during garbage collection,
where Lisp code can't be executed. -module-assertions tests for
this case. */
static emacs_env *current_env;
static void
invalid_finalizer (void *ptr)
{
current_env->intern (current_env, "nil");
}
static emacs_value
Fmod_test_invalid_finalizer (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
current_env = env;
env->make_user_ptr (env, invalid_finalizer, NULL);
return env->intern (env, "nil");
}
static void
signal_system_error (emacs_env *env, int error, const char *function)
{
const char *message = strerror (error);
emacs_value message_value = env->make_string (env, message, strlen (message));
emacs_value symbol = env->intern (env, "file-error");
emacs_value elements[2]
= {env->make_string (env, function, strlen (function)), message_value};
emacs_value data = env->funcall (env, env->intern (env, "list"), 2, elements);
env->non_local_exit_signal (env, symbol, data);
}
static void
signal_errno (emacs_env *env, const char *function)
{
signal_system_error (env, errno, function);
}
/* A long-running operation that occasionally calls `should_quit' or
`process_input'. */
static emacs_value
Fmod_test_sleep_until (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
assert (nargs == 2);
const struct timespec until = env->extract_time (env, args[0]);
if (env->non_local_exit_check (env))
return NULL;
const bool process_input = env->is_not_nil (env, args[1]);
const struct timespec amount = make_timespec(0, 10000000);
while (true)
{
const struct timespec now = current_timespec ();
if (timespec_cmp (now, until) >= 0)
break;
if (nanosleep (&amount, NULL) && errno != EINTR)
{
signal_errno (env, "nanosleep");
return NULL;
}
if ((process_input
&& env->process_input (env) == emacs_process_input_quit)
|| env->should_quit (env))
return NULL;
}
return env->intern (env, "finished");
}
static emacs_value
Fmod_test_add_nanosecond (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
assert (nargs == 1);
struct timespec time = env->extract_time (env, args[0]);
assert (time.tv_nsec >= 0);
assert (time.tv_nsec < 2000000000); /* possible leap second */
time.tv_nsec++;
return env->make_time (env, time);
}
static void
signal_error (emacs_env *env, const char *message)
{
emacs_value data = env->make_string (env, message, strlen (message));
env->non_local_exit_signal (env, env->intern (env, "error"),
env->funcall (env, env->intern (env, "list"), 1,
&data));
}
static void
memory_full (emacs_env *env)
{
signal_error (env, "Memory exhausted");
}
enum
{
max_count = ((SIZE_MAX < PTRDIFF_MAX ? SIZE_MAX : PTRDIFF_MAX)
/ sizeof (emacs_limb_t))
};
static bool
extract_big_integer (emacs_env *env, emacs_value arg, mpz_t result)
{
int sign;
ptrdiff_t count;
bool success = env->extract_big_integer (env, arg, &sign, &count, NULL);
if (!success)
return false;
if (sign == 0)
{
mpz_set_ui (result, 0);
return true;
}
enum { order = -1, size = sizeof (emacs_limb_t), endian = 0, nails = 0 };
assert (0 < count && count <= max_count);
emacs_limb_t *magnitude = malloc (count * size);
if (magnitude == NULL)
{
memory_full (env);
return false;
}
success = env->extract_big_integer (env, arg, NULL, &count, magnitude);
assert (success);
mpz_import (result, count, order, size, endian, nails, magnitude);
free (magnitude);
if (sign < 0)
mpz_neg (result, result);
return true;
}
static emacs_value
make_big_integer (emacs_env *env, const mpz_t value)
{
if (mpz_sgn (value) == 0)
return env->make_integer (env, 0);
/* See
https://gmplib.org/manual/Integer-Import-and-Export.html#index-Export. */
enum
{
order = -1,
size = sizeof (emacs_limb_t),
endian = 0,
nails = 0,
numb = 8 * size - nails
};
size_t count = (mpz_sizeinbase (value, 2) + numb - 1) / numb;
if (max_count < count)
{
memory_full (env);
return NULL;
}
emacs_limb_t *magnitude = malloc (count * size);
if (magnitude == NULL)
{
memory_full (env);
return NULL;
}
size_t written;
mpz_export (magnitude, &written, order, size, endian, nails, value);
assert (written == count);
assert (count <= PTRDIFF_MAX);
emacs_value result = env->make_big_integer (env, mpz_sgn (value),
(ptrdiff_t) count, magnitude);
free (magnitude);
return result;
}
static emacs_value
Fmod_test_nanoseconds (emacs_env *env, ptrdiff_t nargs, emacs_value *args, void *data) {
assert (nargs == 1);
struct timespec time = env->extract_time (env, args[0]);
mpz_t nanoseconds;
assert (LONG_MIN <= time.tv_sec && time.tv_sec <= LONG_MAX);
mpz_init_set_si (nanoseconds, time.tv_sec);
#ifdef __MINGW32__
_Static_assert (1000000000 <= ULONG_MAX, "unsupported architecture");
#else
static_assert (1000000000 <= ULONG_MAX, "unsupported architecture");
#endif
mpz_mul_ui (nanoseconds, nanoseconds, 1000000000);
assert (0 <= time.tv_nsec && time.tv_nsec <= ULONG_MAX);
mpz_add_ui (nanoseconds, nanoseconds, time.tv_nsec);
emacs_value result = make_big_integer (env, nanoseconds);
mpz_clear (nanoseconds);
return result;
}
static emacs_value
Fmod_test_double (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
assert (nargs == 1);
emacs_value arg = args[0];
mpz_t value;
mpz_init (value);
extract_big_integer (env, arg, value);
mpz_mul_ui (value, value, 2);
emacs_value result = make_big_integer (env, value);
mpz_clear (value);
return result;
}
static int function_data;
static int finalizer_calls_with_correct_data;
static int finalizer_calls_with_incorrect_data;
static void
finalizer (void *data)
{
if (data == &function_data)
++finalizer_calls_with_correct_data;
else
++finalizer_calls_with_incorrect_data;
}
static emacs_value
Fmod_test_make_function_with_finalizer (emacs_env *env, ptrdiff_t nargs,
emacs_value *args, void *data)
{
emacs_value fun
= env->make_function (env, 2, 2, Fmod_test_sum, NULL, &function_data);
env->set_function_finalizer (env, fun, finalizer);
if (env->get_function_finalizer (env, fun) != finalizer)
signal_error (env, "Invalid finalizer");
return fun;
}
static emacs_value
Fmod_test_function_finalizer_calls (emacs_env *env, ptrdiff_t nargs,
emacs_value *args, void *data)
{
emacs_value Flist = env->intern (env, "list");
emacs_value list_args[]
= {env->make_integer (env, finalizer_calls_with_correct_data),
env->make_integer (env, finalizer_calls_with_incorrect_data)};
return env->funcall (env, Flist, 2, list_args);
}
static void
sleep_for_half_second (void)
{
/* mingw.org's MinGW has nanosleep, but MinGW64 doesn't. */
#ifdef WINDOWSNT
Sleep (500);
#else
const struct timespec sleep = {0, 500000000};
if (nanosleep (&sleep, NULL) != 0)
perror ("nanosleep");
#endif
}
#ifdef WINDOWSNT
static void ALIGN_STACK
#else
static void *
#endif
write_to_pipe (void *arg)
{
/* We sleep a bit to test that writing to a pipe is indeed possible
if no environment is active. */
sleep_for_half_second ();
FILE *stream = arg;
/* The string below should be identical to the one we compare with
in emacs-module-tests.el:module/async-pipe. */
if (fputs ("data from thread", stream) < 0)
perror ("fputs");
if (fclose (stream) != 0)
perror ("close");
#ifndef WINDOWSNT
return NULL;
#endif
}
static emacs_value
Fmod_test_async_pipe (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
assert (nargs == 1);
int fd = env->open_channel (env, args[0]);
if (env->non_local_exit_check (env) != emacs_funcall_exit_return)
return NULL;
FILE *stream = fdopen (fd, "w");
if (stream == NULL)
{
signal_errno (env, "fdopen");
return NULL;
}
#ifdef WINDOWSNT
uintptr_t thd = _beginthread (write_to_pipe, 0, stream);
int error = (thd == (uintptr_t)-1L) ? errno : 0;
#else /* !WINDOWSNT */
pthread_t thread;
int error
= pthread_create (&thread, NULL, write_to_pipe, stream);
#endif
if (error != 0)
{
signal_system_error (env, error, "thread create");
if (fclose (stream) != 0)
perror ("fclose");
return NULL;
}
return env->intern (env, "nil");
}
static emacs_value
Fmod_test_identity (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
assert (nargs == 1);
return args[0];
}
static emacs_value
Fmod_test_funcall (emacs_env *env, ptrdiff_t nargs, emacs_value *args,
void *data)
{
assert (0 < nargs);
return env->funcall (env, args[0], nargs - 1, args + 1);
}
/* Lisp utilities for easier readability (simple wrappers). */
/* Provide FEATURE to Emacs. */
static void
provide (emacs_env *env, const char *feature)
{
emacs_value Qfeat = env->intern (env, feature);
emacs_value Qprovide = env->intern (env, "provide");
emacs_value args[] = { Qfeat };
env->funcall (env, Qprovide, 1, args);
}
/* Bind NAME to FUN. */
static void
bind_function (emacs_env *env, const char *name, emacs_value Sfun)
{
emacs_value Qdefalias = env->intern (env, "defalias");
emacs_value Qsym = env->intern (env, name);
emacs_value args[] = { Qsym, Sfun };
env->funcall (env, Qdefalias, 2, args);
}
/* Module init function. */
int
emacs_module_init (struct emacs_runtime *ert)
{
/* Check that EMACS_MAJOR_VERSION is defined and an integral
constant. */
char dummy[EMACS_MAJOR_VERSION];
assert (27 <= sizeof dummy);
if (ert->size < sizeof *ert)
{
fprintf (stderr, "Runtime size of runtime structure (%"pT" bytes) "
"smaller than compile-time size (%"pZ" bytes)",
(T_TYPE) ert->size, (Z_TYPE) sizeof (*ert));
return 1;
}
emacs_env *env = ert->get_environment (ert);
if (env->size < sizeof *env)
{
fprintf (stderr, "Runtime size of environment structure (%"pT" bytes) "
"smaller than compile-time size (%"pZ" bytes)",
(T_TYPE) env->size, (Z_TYPE) sizeof (*env));
return 2;
}
#define DEFUN(lsym, csym, amin, amax, doc, data) \
bind_function (env, lsym, \
env->make_function (env, amin, amax, csym, doc, data))
DEFUN ("mod-test-return-t", Fmod_test_return_t, 1, 1, NULL, NULL);
DEFUN ("mod-test-sum", Fmod_test_sum, 2, 2, "Return A + B\n\n(fn a b)",
(void *) (uintptr_t) 0x1234);
DEFUN ("mod-test-signal", Fmod_test_signal, 0, 0, NULL, NULL);
DEFUN ("mod-test-throw", Fmod_test_throw, 0, 0, NULL, NULL);
DEFUN ("mod-test-non-local-exit-funcall", Fmod_test_non_local_exit_funcall,
1, 1, NULL, NULL);
DEFUN ("mod-test-globref-make", Fmod_test_globref_make, 0, 0, NULL, NULL);
DEFUN ("mod-test-globref-free", Fmod_test_globref_free, 4, 4, NULL, NULL);
DEFUN ("mod-test-globref-invalid-free", Fmod_test_globref_invalid_free, 0, 0,
NULL, NULL);
DEFUN ("mod-test-globref-reordered", Fmod_test_globref_reordered, 0, 0, NULL,
NULL);
DEFUN ("mod-test-string-a-to-b", Fmod_test_string_a_to_b, 1, 1, NULL, NULL);
DEFUN ("mod-test-return-unibyte", Fmod_test_return_unibyte, 0, 0, NULL, NULL);
DEFUN ("mod-test-userptr-make", Fmod_test_userptr_make, 1, 1, NULL, NULL);
DEFUN ("mod-test-userptr-get", Fmod_test_userptr_get, 1, 1, NULL, NULL);
DEFUN ("mod-test-vector-fill", Fmod_test_vector_fill, 2, 2, NULL, NULL);
DEFUN ("mod-test-vector-eq", Fmod_test_vector_eq, 2, 2, NULL, NULL);
DEFUN ("mod-test-invalid-store", Fmod_test_invalid_store, 0, 0, NULL, NULL);
DEFUN ("mod-test-invalid-store-copy", Fmod_test_invalid_store_copy, 0, 0,
NULL, NULL);
DEFUN ("mod-test-invalid-load", Fmod_test_invalid_load, 0, 0, NULL, NULL);
DEFUN ("mod-test-invalid-finalizer", Fmod_test_invalid_finalizer, 0, 0,
NULL, NULL);
DEFUN ("mod-test-sleep-until", Fmod_test_sleep_until, 2, 2, NULL, NULL);
DEFUN ("mod-test-add-nanosecond", Fmod_test_add_nanosecond, 1, 1, NULL, NULL);
DEFUN ("mod-test-nanoseconds", Fmod_test_nanoseconds, 1, 1, NULL, NULL);
DEFUN ("mod-test-double", Fmod_test_double, 1, 1, NULL, NULL);
DEFUN ("mod-test-make-function-with-finalizer",
Fmod_test_make_function_with_finalizer, 0, 0, NULL, NULL);
DEFUN ("mod-test-function-finalizer-calls",
Fmod_test_function_finalizer_calls, 0, 0, NULL, NULL);
DEFUN ("mod-test-async-pipe", Fmod_test_async_pipe, 1, 1, NULL, NULL);
DEFUN ("mod-test-funcall", Fmod_test_funcall, 1, emacs_variadic_function,
NULL, NULL);
#undef DEFUN
emacs_value constant_fn
= env->make_function (env, 0, 0, Fmod_test_return_t, NULL, NULL);
env->make_interactive (env, constant_fn, env->intern (env, "nil"));
bind_function (env, "mod-test-return-t-int", constant_fn);
emacs_value identity_fn
= env->make_function (env, 1, 1, Fmod_test_identity, NULL, NULL);
const char *interactive_spec = "i";
env->make_interactive (env, identity_fn,
env->make_string (env, interactive_spec,
strlen (interactive_spec)));
bind_function (env, "mod-test-identity", identity_fn);
/* We allocate lots of values to trigger bugs in the frame allocator during
initialization. */
int count = 10000; /* larger than value_frame_size in emacs-module.c */
for (int i = 0; i < count; ++i)
env->make_integer (env, i);
provide (env, "mod-test");
return 0;
}