void jl_gc_init(void)
{
int szc[N_POOLS] = { 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56,
64, 72, 80, 88, 96, //#=18
112, 128, 144, 160, 176, 192, 208, 224, 240, 256,
288, 320, 352, 384, 416, 448, 480, 512,
640, 768, 896, 1024,
1536, 2048 };
int i;
for(i=0; i < N_POOLS; i++) {
norm_pools[i].osize = szc[i];
norm_pools[i].pages = NULL;
norm_pools[i].freelist = NULL;
ephe_pools[i].osize = szc[i];
ephe_pools[i].pages = NULL;
ephe_pools[i].freelist = NULL;
}
htable_new(&finalizer_table, 0);
arraylist_new(&to_finalize, 0);
arraylist_new(&preserved_values, 0);
arraylist_new(&weak_refs, 0);
#ifdef OBJPROFILE
htable_new(&obj_counts, 0);
#endif
}
TEST(Arraylist, New)
{
int initial_size, sorted, allow_duplicates;
/*
* in order to create an arraylist, initial_size must be >= 0 and a
* comparison callback must be given
*/
POINTERS_EQUAL(NULL,
arraylist_new (-1, 0, 0, NULL, NULL, NULL, NULL));
POINTERS_EQUAL(NULL,
arraylist_new (-1, 0, 0, &test_cmp_cb, NULL, NULL, NULL));
POINTERS_EQUAL(NULL,
arraylist_new (0, 0, 0, NULL, NULL, NULL, NULL));
/* tests on arraylists */
for (initial_size = 0; initial_size < 2; initial_size++)
{
for (sorted = 0; sorted < 2; sorted++)
{
for (allow_duplicates = 0; allow_duplicates < 2;
allow_duplicates++)
{
test_arraylist (initial_size, sorted, allow_duplicates);
}
}
}
}
void
gui_completion_buffer_init (struct t_gui_completion *completion,
struct t_gui_buffer *buffer)
{
completion->buffer = buffer;
completion->context = GUI_COMPLETION_NULL;
completion->base_command = NULL;
completion->base_command_arg_index = 0;
completion->base_word = NULL;
completion->base_word_pos = 0;
completion->position = -1;
completion->args = NULL;
completion->direction = 0;
completion->add_space = 1;
completion->force_partial_completion = 0;
completion->reverse_partial_completion = 0;
completion->list = arraylist_new (
32, 1, 0,
&gui_completion_word_compare_cb, NULL,
&gui_completion_word_free_cb, NULL);
completion->word_found = NULL;
completion->word_found_is_nick = 0;
completion->position_replace = 0;
completion->diff_size = 0;
completion->diff_length = 0;
completion->partial_list = arraylist_new (
0, 0, 0,
&gui_completion_word_compare_cb, NULL,
&gui_completion_word_free_cb, NULL);
}
static void allocate_segv_handler()
{
#ifdef JULIA_ENABLE_THREADING
arraylist_new(&suspended_threads, jl_n_threads);
#endif
pthread_t thread;
pthread_attr_t attr;
kern_return_t ret;
mach_port_t self = mach_task_self();
ret = mach_port_allocate(self, MACH_PORT_RIGHT_RECEIVE, &segv_port);
HANDLE_MACH_ERROR("mach_port_allocate",ret);
ret = mach_port_insert_right(self, segv_port, segv_port, MACH_MSG_TYPE_MAKE_SEND);
HANDLE_MACH_ERROR("mach_port_insert_right",ret);
// Alright, create a thread to serve as the listener for exceptions
if (pthread_attr_init(&attr) != 0) {
jl_error("pthread_attr_init failed");
}
pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED);
if (pthread_create(&thread, &attr, mach_segv_listener, NULL) != 0) {
jl_error("pthread_create failed");
}
pthread_attr_destroy(&attr);
for (int16_t tid = 0;tid < jl_n_threads;tid++) {
attach_exception_port(pthread_mach_thread_np(jl_all_task_states[tid].system_id));
}
}
JL_DLLEXPORT jl_module_t *jl_new_module(jl_sym_t *name)
{
jl_ptls_t ptls = jl_get_ptls_states();
jl_module_t *m = (jl_module_t*)jl_gc_alloc(ptls, sizeof(jl_module_t),
jl_module_type);
JL_GC_PUSH1(&m);
assert(jl_is_symbol(name));
m->name = name;
m->parent = NULL;
m->istopmod = 0;
static unsigned int mcounter; // simple counter backup, in case hrtime is not incrementing
m->uuid = jl_hrtime() + (++mcounter);
if (!m->uuid) m->uuid++; // uuid 0 is invalid
m->counter = 0;
htable_new(&m->bindings, 0);
arraylist_new(&m->usings, 0);
if (jl_core_module) {
jl_module_using(m, jl_core_module);
}
// export own name, so "using Foo" makes "Foo" itself visible
jl_set_const(m, name, (jl_value_t*)m);
jl_module_export(m, name);
JL_GC_POP();
return m;
}
p2p_ctx* p2p_init(char* ip_bind,uint32_t port)
{
p2p_ctx *ctx=malloc(sizeof(p2p_ctx));
if(ctx!=NULL)
{
pthread_mutex_init(&ctx->mutex,NULL);
ctx->peers=arraylist_new(20);
ctx->handler=libpeers_default_handle_message;
ctx->port=port;
ctx->s=sock_init(AF_INET,SOCK_DGRAM,0);
ctx->packet_size=kKB4;
// sock_setaddress(ctx->s,ip_bind);
sock_setaddress_var(ctx->s,ctx->port,htonl(INADDR_ANY));
// int opt=1;
// sock_setopt(ctx->s,SOL_SOCKET,SO_REUSEADDR,&opt,1);
// sock_setopt(ctx->s,SOL_SOCKET,SO_REUSEPORT,&opt,1);
// struct timeval timeout={1,0};
// timeout.tv_sec = 1;
// timeout.tv_usec = 0;
// sock_setopt(ctx->s,SOL_SOCKET,SO_RCVTIMEO,&timeout,sizeof(timeout));
ctx->status=0;
}
return ctx;
}
void jl_gc_init(void)
{
int szc[N_POOLS] = { 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56,
64, 72, 80, 88, 96, //#=18
112, 128, 144, 160, 176, 192, 208, 224, 240, 256,
288, 320, 352, 384, 416, 448, 480, 512,
640, 768, 896, 1024,
1536, 2048
};
int i;
for(i=0; i < N_POOLS; i++) {
norm_pools[i].osize = szc[i];
norm_pools[i].pages = NULL;
norm_pools[i].freelist = NULL;
ephe_pools[i].osize = szc[i];
ephe_pools[i].pages = NULL;
ephe_pools[i].freelist = NULL;
}
htable_new(&finalizer_table, 0);
arraylist_new(&to_finalize, 0);
arraylist_new(&preserved_values, 0);
arraylist_new(&weak_refs, 0);
#ifdef OBJPROFILE
htable_new(&obj_counts, 0);
#endif
#ifdef GC_FINAL_STATS
process_t0 = clock_now();
#endif
#ifdef _P64
// on a big memory machine, set max_collect_interval to totalmem/ncores/2
size_t maxmem = (uv_get_total_memory()/jl_cpu_cores())/2;
if (maxmem > max_collect_interval)
max_collect_interval = maxmem;
#endif
}
jl_module_t *jl_new_module(jl_sym_t *name)
{
jl_module_t *m = (jl_module_t*)allocb(sizeof(jl_module_t));
m->name = name;
htable_new(&m->bindings, 0);
htable_new(&m->macros, 0);
htable_new(&m->modules, 0);
arraylist_new(&m->imports, 0);
return m;
}
jl_module_t *jl_new_module(jl_sym_t *name)
{
jl_module_t *m = (jl_module_t*)allocobj(sizeof(jl_module_t));
m->type = (jl_value_t*)jl_module_type;
m->name = name;
htable_new(&m->bindings, 0);
jl_set_const(m, name, (jl_value_t*)m);
arraylist_new(&m->usings, 0);
if (jl_core_module) {
jl_module_using(m, jl_core_module);
}
// export own name, so "using Foo" makes "Foo" itself visible
jl_module_export(m, name);
return m;
}
ArrayList* simple_string_split(const char* self, const char* regex)
{
ArrayList* values = arraylist_new(-1);
char* buffer = strdup(self);
char* buf = buffer;
char* ptr = NULL;
char* sub = NULL;
while ((sub = strtok_r(buf, regex, &ptr)) != NULL)
{
char* value = malloc(sizeof(strlen(sub) + 1));
bzero(value, strlen(sub) + 1);
memcpy(value, sub, strlen(sub));
arraylist_add(values, value);
buf = NULL;
}
free(buffer);
return values;
}
JL_DLLEXPORT jl_module_t *jl_new_module(jl_sym_t *name)
{
jl_module_t *m = (jl_module_t*)jl_gc_allocobj(sizeof(jl_module_t));
jl_set_typeof(m, jl_module_type);
JL_GC_PUSH1(&m);
assert(jl_is_symbol(name));
m->name = name;
m->parent = NULL;
m->istopmod = 0;
m->uuid = uv_now(uv_default_loop());
m->counter = 0;
htable_new(&m->bindings, 0);
arraylist_new(&m->usings, 0);
if (jl_core_module) {
jl_module_using(m, jl_core_module);
}
// export own name, so "using Foo" makes "Foo" itself visible
jl_set_const(m, name, (jl_value_t*)m);
jl_module_export(m, name);
JL_GC_POP();
return m;
}
void
test_arraylist (int initial_size, int sorted, int allow_duplicates)
{
struct t_arraylist *arraylist;
int i, index, index_insert;
void *pointer;
const char *item_aaa = "aaa";
const char *item_abc = "abc";
const char *item_DEF = "DEF";
const char *item_Def = "Def";
const char *item_def = "def";
const char *item_xxx = "xxx";
const char *item_zzz = "zzz";
/* create arraylist */
arraylist = arraylist_new (initial_size,
sorted,
allow_duplicates,
&test_cmp_cb, NULL,
NULL, NULL);
/* check values after creation */
CHECK(arraylist);
LONGS_EQUAL(0, arraylist->size);
LONGS_EQUAL(initial_size, arraylist->size_alloc);
LONGS_EQUAL(initial_size, arraylist->size_alloc_min);
if (initial_size > 0)
{
CHECK(arraylist->data);
for (i = 0; i < initial_size; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
else
{
POINTERS_EQUAL(NULL, arraylist->data);
}
LONGS_EQUAL(sorted, arraylist->sorted);
LONGS_EQUAL(allow_duplicates, arraylist->allow_duplicates);
/* check size */
LONGS_EQUAL(0, arraylist_size (arraylist));
/* get element (this should always fail, the list is empty!) */
POINTERS_EQUAL(NULL, arraylist_get (NULL, -1));
POINTERS_EQUAL(NULL, arraylist_get (NULL, 0));
POINTERS_EQUAL(NULL, arraylist_get (NULL, 1));
POINTERS_EQUAL(NULL, arraylist_get (arraylist, -1));
POINTERS_EQUAL(NULL, arraylist_get (arraylist, 0));
POINTERS_EQUAL(NULL, arraylist_get (arraylist, 1));
/* search element (this should always fail, the list is empty!) */
POINTERS_EQUAL(NULL, arraylist_search (NULL, NULL, NULL, NULL));
POINTERS_EQUAL(NULL, arraylist_search (arraylist, NULL, NULL, NULL));
POINTERS_EQUAL(NULL,
arraylist_search (NULL, (void *)item_abc, NULL, NULL));
POINTERS_EQUAL(NULL,
arraylist_search (arraylist, (void *)item_abc, NULL, NULL));
/* invalid add of element */
LONGS_EQUAL(-1, arraylist_add (NULL, NULL));
/* add some elements */
if (sorted)
{
TEST_ARRAYLIST_ADD(0, item_zzz);
TEST_ARRAYLIST_ADD(0, item_xxx);
TEST_ARRAYLIST_ADD(0, NULL);
TEST_ARRAYLIST_ADD(1, item_DEF);
TEST_ARRAYLIST_ADD((allow_duplicates) ? 2 : 1, item_def);
TEST_ARRAYLIST_ADD((allow_duplicates) ? 3 : 1, item_Def);
TEST_ARRAYLIST_ADD(1, item_abc);
}
else
{
TEST_ARRAYLIST_ADD(0, item_zzz);
TEST_ARRAYLIST_ADD(1, item_xxx);
TEST_ARRAYLIST_ADD(2, NULL);
TEST_ARRAYLIST_ADD(3, item_DEF);
TEST_ARRAYLIST_ADD((allow_duplicates) ? 4 : 3, item_def);
TEST_ARRAYLIST_ADD((allow_duplicates) ? 5 : 3, item_Def);
TEST_ARRAYLIST_ADD((allow_duplicates) ? 6 : 4, item_abc);
}
/*
* arraylist is now:
* sorted:
* dup : [NULL, "abc", "DEF", "def", "Def", "xxx", "zzz"] + 2 NULL
* no dup: [NULL, "abc", "Def", "xxx", "zzz"] + 1 NULL
* not sorted:
* dup : ["zzz", "xxx", NULL, "DEF", "def", "Def", "abc"] + 2 NULL
* no dup: ["zzz", "xxx", NULL, "Def", "abc"] + 1 NULL
*/
/* check size after adds */
LONGS_EQUAL((allow_duplicates) ? 7 : 5, arraylist->size);
LONGS_EQUAL((allow_duplicates) ? 7 : 5, arraylist_size (arraylist));
LONGS_EQUAL((allow_duplicates) ? 9 : 6, arraylist->size_alloc);
/* check content after adds */
if (sorted)
{
if (allow_duplicates)
{
POINTERS_EQUAL(NULL, arraylist->data[0]);
STRCMP_EQUAL(item_abc, (const char *)arraylist->data[1]);
STRCMP_EQUAL(item_DEF, (const char *)arraylist->data[2]);
STRCMP_EQUAL(item_def, (const char *)arraylist->data[3]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[4]);
STRCMP_EQUAL(item_xxx, (const char *)arraylist->data[5]);
STRCMP_EQUAL(item_zzz, (const char *)arraylist->data[6]);
for (i = 7; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
else
{
POINTERS_EQUAL(NULL, arraylist->data[0]);
STRCMP_EQUAL(item_abc, (const char *)arraylist->data[1]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[2]);
STRCMP_EQUAL(item_xxx, (const char *)arraylist->data[3]);
STRCMP_EQUAL(item_zzz, (const char *)arraylist->data[4]);
for (i = 5; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
}
else
{
if (allow_duplicates)
{
STRCMP_EQUAL(item_zzz, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_xxx, (const char *)arraylist->data[1]);
POINTERS_EQUAL(NULL, arraylist->data[2]);
STRCMP_EQUAL(item_DEF, (const char *)arraylist->data[3]);
STRCMP_EQUAL(item_def, (const char *)arraylist->data[4]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[5]);
STRCMP_EQUAL(item_abc, (const char *)arraylist->data[6]);
for (i = 7; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
else
{
STRCMP_EQUAL(item_zzz, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_xxx, (const char *)arraylist->data[1]);
POINTERS_EQUAL(NULL, arraylist->data[2]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[3]);
STRCMP_EQUAL(item_abc, (const char *)arraylist->data[4]);
for (i = 5; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
}
/* search elements */
if (sorted)
{
if (allow_duplicates)
{
TEST_ARRAYLIST_SEARCH(NULL, 0, 1, NULL);
TEST_ARRAYLIST_SEARCH(item_abc, 1, 2, item_abc);
TEST_ARRAYLIST_SEARCH(item_DEF, 2, 5, item_DEF);
TEST_ARRAYLIST_SEARCH(item_DEF, 2, 5, item_def);
TEST_ARRAYLIST_SEARCH(item_DEF, 2, 5, item_Def);
TEST_ARRAYLIST_SEARCH(item_xxx, 5, 6, item_xxx);
TEST_ARRAYLIST_SEARCH(item_zzz, 6, 7, item_zzz);
}
else
{
TEST_ARRAYLIST_SEARCH(NULL, 0, 1, NULL);
TEST_ARRAYLIST_SEARCH(item_abc, 1, 2, item_abc);
TEST_ARRAYLIST_SEARCH(item_Def, 2, 3, item_DEF);
TEST_ARRAYLIST_SEARCH(item_Def, 2, 3, item_def);
TEST_ARRAYLIST_SEARCH(item_Def, 2, 3, item_Def);
TEST_ARRAYLIST_SEARCH(item_xxx, 3, 4, item_xxx);
TEST_ARRAYLIST_SEARCH(item_zzz, 4, 5, item_zzz);
}
/* search non-existing element */
TEST_ARRAYLIST_SEARCH(NULL, -1, 1, item_aaa);
}
else
{
if (allow_duplicates)
{
TEST_ARRAYLIST_SEARCH(item_zzz, 0, -1, item_zzz);
TEST_ARRAYLIST_SEARCH(item_xxx, 1, -1, item_xxx);
TEST_ARRAYLIST_SEARCH(NULL, 2, -1, NULL);
TEST_ARRAYLIST_SEARCH(item_DEF, 3, -1, item_DEF);
TEST_ARRAYLIST_SEARCH(item_DEF, 3, -1, item_def);
TEST_ARRAYLIST_SEARCH(item_DEF, 3, -1, item_Def);
TEST_ARRAYLIST_SEARCH(item_abc, 6, -1, item_abc);
}
else
{
TEST_ARRAYLIST_SEARCH(item_zzz, 0, -1, item_zzz);
TEST_ARRAYLIST_SEARCH(item_xxx, 1, -1, item_xxx);
TEST_ARRAYLIST_SEARCH(NULL, 2, -1, NULL);
TEST_ARRAYLIST_SEARCH(item_Def, 3, -1, item_DEF);
TEST_ARRAYLIST_SEARCH(item_Def, 3, -1, item_def);
TEST_ARRAYLIST_SEARCH(item_Def, 3, -1, item_Def);
TEST_ARRAYLIST_SEARCH(item_abc, 4, -1, item_abc);
}
/* search non-existing element */
TEST_ARRAYLIST_SEARCH(NULL, -1, -1, item_aaa);
}
/* invalid remove of elements */
LONGS_EQUAL(-1, arraylist_remove (NULL, -1));
LONGS_EQUAL(-1, arraylist_remove (arraylist, -1));
LONGS_EQUAL(-1, arraylist_remove (NULL, 0));
/* remove the 3 first elements and check size after each remove */
LONGS_EQUAL(0, arraylist_remove (arraylist, 0));
LONGS_EQUAL((allow_duplicates) ? 6 : 4, arraylist->size);
LONGS_EQUAL((allow_duplicates) ? 6 : 4, arraylist_size (arraylist));
LONGS_EQUAL((allow_duplicates) ? 9 : 6, arraylist->size_alloc);
LONGS_EQUAL(0, arraylist_remove (arraylist, 0));
LONGS_EQUAL((allow_duplicates) ? 5 : 3, arraylist->size);
LONGS_EQUAL((allow_duplicates) ? 5 : 3, arraylist_size (arraylist));
LONGS_EQUAL((allow_duplicates) ? 9 : 6, arraylist->size_alloc);
LONGS_EQUAL(0, arraylist_remove (arraylist, 0));
LONGS_EQUAL((allow_duplicates) ? 4 : 2, arraylist->size);
LONGS_EQUAL((allow_duplicates) ? 4 : 2, arraylist_size (arraylist));
LONGS_EQUAL((allow_duplicates) ? 5 : 3, arraylist->size_alloc);
/*
* arraylist is now:
* sorted:
* dup : ["def", "Def", "xxx", "zzz"] + 1 NULL
* no dup: ["xxx", "zzz"] + 1 NULL
* not sorted:
* dup : ["DEF", "def", "Def", "abc"] + 1 NULL
* no dup: ["Def", "abc"] + 1 NULL
*/
/* check content after the 3 deletions */
if (sorted)
{
if (allow_duplicates)
{
STRCMP_EQUAL(item_def, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[1]);
STRCMP_EQUAL(item_xxx, (const char *)arraylist->data[2]);
STRCMP_EQUAL(item_zzz, (const char *)arraylist->data[3]);
for (i = 4; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
else
{
STRCMP_EQUAL(item_xxx, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_zzz, (const char *)arraylist->data[1]);
for (i = 2; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
}
else
{
if (allow_duplicates)
{
STRCMP_EQUAL(item_DEF, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_def, (const char *)arraylist->data[1]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[2]);
STRCMP_EQUAL(item_abc, (const char *)arraylist->data[3]);
for (i = 4; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
else
{
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_abc, (const char *)arraylist->data[1]);
for (i = 2; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
}
/* invalid insert of element */
LONGS_EQUAL(-1, arraylist_insert (NULL, 0, NULL));
/* insert of one element */
LONGS_EQUAL(0, arraylist_insert (arraylist, 0, (void *)item_aaa));
/*
* arraylist is now:
* sorted:
* dup : ["aaa", "def", "Def", "xxx", "zzz"]
* no dup: ["aaa", "xxx", "zzz"]
* not sorted:
* dup : ["aaa", "DEF", "def", "Def", "abc"]
* no dup: ["aaa", "Def", "abc"]
*/
/* check size after insert */
LONGS_EQUAL((allow_duplicates) ? 5 : 3, arraylist->size);
LONGS_EQUAL((allow_duplicates) ? 5 : 3, arraylist_size (arraylist));
LONGS_EQUAL((allow_duplicates) ? 5 : 3, arraylist->size_alloc);
/* check content after the insert */
if (sorted)
{
if (allow_duplicates)
{
STRCMP_EQUAL(item_aaa, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_def, (const char *)arraylist->data[1]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[2]);
STRCMP_EQUAL(item_xxx, (const char *)arraylist->data[3]);
STRCMP_EQUAL(item_zzz, (const char *)arraylist->data[4]);
for (i = 5; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
else
{
STRCMP_EQUAL(item_aaa, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_xxx, (const char *)arraylist->data[1]);
STRCMP_EQUAL(item_zzz, (const char *)arraylist->data[2]);
for (i = 3; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
}
else
{
if (allow_duplicates)
{
STRCMP_EQUAL(item_aaa, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_DEF, (const char *)arraylist->data[1]);
STRCMP_EQUAL(item_def, (const char *)arraylist->data[2]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[3]);
STRCMP_EQUAL(item_abc, (const char *)arraylist->data[4]);
for (i = 5; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
else
{
STRCMP_EQUAL(item_aaa, (const char *)arraylist->data[0]);
STRCMP_EQUAL(item_Def, (const char *)arraylist->data[1]);
STRCMP_EQUAL(item_abc, (const char *)arraylist->data[2]);
for (i = 3; i < arraylist->size_alloc; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
}
/* clear arraylist */
LONGS_EQUAL(0, arraylist_clear (NULL));
LONGS_EQUAL(1, arraylist_clear (arraylist));
/* check size and data after clear */
LONGS_EQUAL(0, arraylist->size);
LONGS_EQUAL(0, arraylist_size (arraylist));
LONGS_EQUAL(initial_size, arraylist->size_alloc);
if (initial_size > 0)
{
CHECK(arraylist->data);
for (i = 0; i < initial_size; i++)
{
POINTERS_EQUAL(NULL, arraylist->data[i]);
}
}
else
{
POINTERS_EQUAL(NULL, arraylist->data);
}
/* free arraylist */
arraylist_free (arraylist);
}
jl_value_t *jl_eval_module_expr(jl_expr_t *ex)
{
static arraylist_t module_stack;
static int initialized=0;
static jl_module_t *outermost = NULL;
if (!initialized) {
arraylist_new(&module_stack, 0);
initialized = 1;
}
assert(ex->head == module_sym);
jl_module_t *last_module = jl_current_module;
if (jl_array_len(ex->args) != 3 || !jl_is_expr(jl_exprarg(ex,2))) {
jl_error("syntax: malformed module expression");
}
int std_imports = (jl_exprarg(ex,0)==jl_true);
jl_sym_t *name = (jl_sym_t*)jl_exprarg(ex, 1);
if (!jl_is_symbol(name)) {
jl_type_error("module", (jl_value_t*)jl_sym_type, (jl_value_t*)name);
}
jl_module_t *parent_module = jl_current_module;
jl_binding_t *b = jl_get_binding_wr(parent_module, name);
jl_declare_constant(b);
if (b->value != NULL) {
if (!jl_is_module(b->value)) {
jl_errorf("invalid redefinition of constant %s", name->name);
}
if (jl_generating_output() && jl_options.incremental) {
jl_errorf("cannot replace module %s during incremental compile", name->name);
}
if (!jl_generating_output()) {
// suppress warning "replacing module Core.Inference" during bootstrapping
jl_printf(JL_STDERR, "WARNING: replacing module %s\n", name->name);
}
}
jl_module_t *newm = jl_new_module(name);
newm->parent = parent_module;
b->value = (jl_value_t*)newm;
jl_gc_wb_binding(b, newm);
if (parent_module == jl_main_module && name == jl_symbol("Base")) {
// pick up Base module during bootstrap
jl_old_base_module = jl_base_module;
jl_base_module = newm;
// reinitialize global variables
// to pick up new types from Base
jl_errorexception_type = NULL;
jl_argumenterror_type = NULL;
jl_methoderror_type = NULL;
jl_loaderror_type = NULL;
jl_current_task->tls = jl_nothing; // may contain an entry for :SOURCE_FILE that is not valid in the new base
}
// export all modules from Main
if (parent_module == jl_main_module)
jl_module_export(jl_main_module, name);
// add standard imports unless baremodule
if (std_imports) {
if (jl_base_module != NULL) {
jl_add_standard_imports(newm);
}
}
JL_GC_PUSH1(&last_module);
jl_module_t *task_last_m = jl_current_task->current_module;
jl_current_task->current_module = jl_current_module = newm;
jl_module_t *prev_outermost = outermost;
size_t stackidx = module_stack.len;
if (outermost == NULL)
outermost = newm;
jl_array_t *exprs = ((jl_expr_t*)jl_exprarg(ex, 2))->args;
JL_TRY {
for(int i=0; i < jl_array_len(exprs); i++) {
// process toplevel form
jl_value_t *form = jl_cellref(exprs, i);
(void)jl_toplevel_eval_flex(form, 1);
}
}
JL_CATCH {
jl_current_module = last_module;
jl_current_task->current_module = task_last_m;
outermost = prev_outermost;
module_stack.len = stackidx;
jl_rethrow();
}
JL_GC_POP();
jl_current_module = last_module;
jl_current_task->current_module = task_last_m;
outermost = prev_outermost;
#if 0
// some optional post-processing steps
size_t i;
void **table = newm->bindings.table;
for(i=1; i < newm->bindings.size; i+=2) {
if (table[i] != HT_NOTFOUND) {
jl_binding_t *b = (jl_binding_t*)table[i];
// remove non-exported macros
if (b->name->name[0]=='@' && !b->exportp && b->owner==newm)
b->value = NULL;
// error for unassigned exports
/*
if (b->exportp && b->owner==newm && b->value==NULL)
jl_errorf("identifier %s exported from %s is not initialized",
b->name->name, newm->name->name);
*/
}
}
#endif
arraylist_push(&module_stack, newm);
if (outermost == NULL || jl_current_module == jl_main_module) {
size_t i, l=module_stack.len;
for(i = stackidx; i < l; i++) {
jl_module_load_time_initialize((jl_module_t*)module_stack.items[i]);
}
assert(module_stack.len == l);
module_stack.len = stackidx;
}
return (jl_value_t*)newm;
}
jl_value_t *jl_eval_module_expr(jl_expr_t *ex)
{
static arraylist_t module_stack;
static int initialized=0;
if (!initialized) {
arraylist_new(&module_stack, 0);
initialized = 1;
}
assert(ex->head == module_sym);
jl_module_t *last_module = jl_current_module;
if (jl_array_len(ex->args) != 3 || !jl_is_expr(jl_exprarg(ex,2))) {
jl_error("syntax: malformed module expression");
}
int std_imports = (jl_exprarg(ex,0)==jl_true);
jl_sym_t *name = (jl_sym_t*)jl_exprarg(ex, 1);
if (!jl_is_symbol(name)) {
jl_type_error("module", (jl_value_t*)jl_sym_type, (jl_value_t*)name);
}
jl_module_t *parent_module = jl_current_module;
jl_binding_t *b = jl_get_binding_wr(parent_module, name);
jl_declare_constant(b);
if (b->value != NULL) {
JL_PRINTF(JL_STDERR, "Warning: replacing module %s\n", name->name);
}
jl_module_t *newm = jl_new_module(name);
newm->parent = parent_module;
b->value = (jl_value_t*)newm;
if (parent_module == jl_main_module && name == jl_symbol("Base")) {
// pick up Base module during bootstrap
jl_old_base_module = jl_base_module;
jl_base_module = newm;
// reinitialize global variables
// to pick up new types from Base
jl_errorexception_type = NULL;
jl_typeerror_type = NULL;
jl_methoderror_type = NULL;
jl_loaderror_type = NULL;
jl_weakref_type = NULL;
jl_current_task->tls = jl_nothing;
}
// export all modules from Main
if (parent_module == jl_main_module)
jl_module_export(jl_main_module, name);
// add standard imports unless baremodule
if (std_imports) {
if (jl_base_module != NULL) {
jl_add_standard_imports(newm);
}
}
JL_GC_PUSH1(&last_module);
jl_module_t *task_last_m = jl_current_task->current_module;
jl_current_task->current_module = jl_current_module = newm;
jl_array_t *exprs = ((jl_expr_t*)jl_exprarg(ex, 2))->args;
JL_TRY {
for(int i=0; i < jl_array_len(exprs); i++) {
// process toplevel form
jl_value_t *form = jl_cellref(exprs, i);
(void)jl_toplevel_eval_flex(form, 1);
}
}
JL_CATCH {
jl_current_module = last_module;
jl_current_task->current_module = task_last_m;
jl_rethrow();
}
JL_GC_POP();
jl_current_module = last_module;
jl_current_task->current_module = task_last_m;
#if 0
// some optional post-processing steps
size_t i;
void **table = newm->bindings.table;
for(i=1; i < newm->bindings.size; i+=2) {
if (table[i] != HT_NOTFOUND) {
jl_binding_t *b = (jl_binding_t*)table[i];
// remove non-exported macros
if (b->name->name[0]=='@' && !b->exportp && b->owner==newm)
b->value = NULL;
// error for unassigned exports
/*
if (b->exportp && b->owner==newm && b->value==NULL)
jl_errorf("identifier %s exported from %s is not initialized",
b->name->name, newm->name->name);
*/
}
}
#endif
arraylist_push(&module_stack, newm);
if (jl_current_module == jl_main_module) {
while (module_stack.len > 0) {
jl_module_load_time_initialize((jl_module_t *) arraylist_pop(&module_stack));
}
}
return jl_nothing;
}
jl_value_t *jl_eval_module_expr(jl_expr_t *ex)
{
jl_ptls_t ptls = jl_get_ptls_states();
static arraylist_t module_stack;
static int initialized=0;
static jl_module_t *outermost = NULL;
if (!initialized) {
arraylist_new(&module_stack, 0);
initialized = 1;
}
assert(ex->head == module_sym);
jl_module_t *last_module = ptls->current_module;
if (jl_array_len(ex->args) != 3 || !jl_is_expr(jl_exprarg(ex,2))) {
jl_error("syntax: malformed module expression");
}
int std_imports = (jl_exprarg(ex,0)==jl_true);
jl_sym_t *name = (jl_sym_t*)jl_exprarg(ex, 1);
if (!jl_is_symbol(name)) {
jl_type_error("module", (jl_value_t*)jl_sym_type, (jl_value_t*)name);
}
jl_module_t *parent_module = ptls->current_module;
jl_binding_t *b = jl_get_binding_wr(parent_module, name);
jl_declare_constant(b);
if (b->value != NULL) {
if (!jl_is_module(b->value)) {
jl_errorf("invalid redefinition of constant %s",
jl_symbol_name(name));
}
if (jl_generating_output()) {
jl_errorf("cannot replace module %s during compilation",
jl_symbol_name(name));
}
jl_printf(JL_STDERR, "WARNING: replacing module %s\n",
jl_symbol_name(name));
}
jl_module_t *newm = jl_new_module(name);
newm->parent = parent_module;
b->value = (jl_value_t*)newm;
jl_gc_wb_binding(b, newm);
if (parent_module == jl_main_module && name == jl_symbol("Base")) {
// pick up Base module during bootstrap
jl_base_module = newm;
}
// export all modules from Main
if (parent_module == jl_main_module)
jl_module_export(jl_main_module, name);
// add standard imports unless baremodule
if (std_imports) {
if (jl_base_module != NULL) {
jl_add_standard_imports(newm);
}
}
jl_value_t *defaultdefs = NULL, *form = NULL;
JL_GC_PUSH3(&last_module, &defaultdefs, &form);
jl_module_t *task_last_m = ptls->current_task->current_module;
ptls->current_task->current_module = ptls->current_module = newm;
jl_module_t *prev_outermost = outermost;
size_t stackidx = module_stack.len;
if (outermost == NULL)
outermost = newm;
if (std_imports) {
// add `eval` function
defaultdefs = jl_call_scm_on_ast("module-default-defs", (jl_value_t*)ex);
jl_toplevel_eval_flex(defaultdefs, 0, 1);
defaultdefs = NULL;
}
jl_array_t *exprs = ((jl_expr_t*)jl_exprarg(ex, 2))->args;
JL_TRY {
for(int i=0; i < jl_array_len(exprs); i++) {
// process toplevel form
form = jl_expand(jl_array_ptr_ref(exprs, i));
(void)jl_toplevel_eval_flex(form, 1, 1);
}
}
JL_CATCH {
ptls->current_module = last_module;
ptls->current_task->current_module = task_last_m;
outermost = prev_outermost;
module_stack.len = stackidx;
jl_rethrow();
}
JL_GC_POP();
ptls->current_module = last_module;
ptls->current_task->current_module = task_last_m;
outermost = prev_outermost;
#if 0
// some optional post-processing steps
size_t i;
void **table = newm->bindings.table;
for(i=1; i < newm->bindings.size; i+=2) {
if (table[i] != HT_NOTFOUND) {
jl_binding_t *b = (jl_binding_t*)table[i];
// remove non-exported macros
if (jl_symbol_name(b->name)[0]=='@' &&
!b->exportp && b->owner == newm)
b->value = NULL;
// error for unassigned exports
/*
if (b->exportp && b->owner==newm && b->value==NULL)
jl_errorf("identifier %s exported from %s is not initialized",
jl_symbol_name(b->name), jl_symbol_name(newm->name));
*/
}
}
#endif
arraylist_push(&module_stack, newm);
if (outermost == NULL || ptls->current_module == jl_main_module) {
JL_TRY {
size_t i, l=module_stack.len;
for(i = stackidx; i < l; i++) {
jl_module_load_time_initialize((jl_module_t*)module_stack.items[i]);
}
assert(module_stack.len == l);
module_stack.len = stackidx;
}
JL_CATCH {
module_stack.len = stackidx;
jl_rethrow();
}
}
ArrayList *seqstack_new(unsigned int length) {
ArrayList *seqstack = arraylist_new(length);
return seqstack;
}
static void test_arraylist (void) {
ArrayList* arraylist;
arraylist = arraylist_new (0);
arraylist_free (arraylist);
}
