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|
/* vi:set ts=8 sts=4 sw=4 noet:
*
* VIM - Vi IMproved by Bram Moolenaar
*
* Do ":help uganda" in Vim to read copying and usage conditions.
* Do ":help credits" in Vim to see a list of people who contributed.
* See README.txt for an overview of the Vim source code.
*/
/*
* gc.c: Garbage Collection
*/
#include "vim.h"
#if defined(FEAT_EVAL) || defined(PROTO)
/*
* When recursively copying lists and dicts we need to remember which ones we
* have done to avoid endless recursiveness. This unique ID is used for that.
* The last bit is used for previous_funccal, ignored when comparing.
*/
static int current_copyID = 0;
static int free_unref_items(int copyID);
/*
* Return the next (unique) copy ID.
* Used for serializing nested structures.
*/
int
get_copyID(void)
{
current_copyID += COPYID_INC;
return current_copyID;
}
/*
* Garbage collection for lists and dictionaries.
*
* We use reference counts to be able to free most items right away when they
* are no longer used. But for composite items it's possible that it becomes
* unused while the reference count is > 0: When there is a recursive
* reference. Example:
* :let l = [1, 2, 3]
* :let d = {9: l}
* :let l[1] = d
*
* Since this is quite unusual we handle this with garbage collection: every
* once in a while find out which lists and dicts are not referenced from any
* variable.
*
* Here is a good reference text about garbage collection (refers to Python
* but it applies to all reference-counting mechanisms):
* http://python.ca/nas/python/gc/
*/
/*
* Do garbage collection for lists and dicts.
* When "testing" is TRUE this is called from test_garbagecollect_now().
* Return TRUE if some memory was freed.
*/
int
garbage_collect(int testing)
{
int copyID;
int abort = FALSE;
buf_T *buf;
win_T *wp;
int did_free = FALSE;
tabpage_T *tp;
if (!testing)
{
// Only do this once.
want_garbage_collect = FALSE;
may_garbage_collect = FALSE;
garbage_collect_at_exit = FALSE;
}
// The execution stack can grow big, limit the size.
if (exestack.ga_maxlen - exestack.ga_len > 500)
{
size_t new_len;
char_u *pp;
int n;
// Keep 150% of the current size, with a minimum of the growth size.
n = exestack.ga_len / 2;
if (n < exestack.ga_growsize)
n = exestack.ga_growsize;
// Don't make it bigger though.
if (exestack.ga_len + n < exestack.ga_maxlen)
{
new_len = (size_t)exestack.ga_itemsize * (exestack.ga_len + n);
pp = vim_realloc(exestack.ga_data, new_len);
if (pp == NULL)
return FAIL;
exestack.ga_maxlen = exestack.ga_len + n;
exestack.ga_data = pp;
}
}
// We advance by two because we add one for items referenced through
// previous_funccal.
copyID = get_copyID();
/*
* 1. Go through all accessible variables and mark all lists and dicts
* with copyID.
*/
// Don't free variables in the previous_funccal list unless they are only
// referenced through previous_funccal. This must be first, because if
// the item is referenced elsewhere the funccal must not be freed.
abort = abort || set_ref_in_previous_funccal(copyID);
// script-local variables
abort = abort || garbage_collect_scriptvars(copyID);
// buffer-local variables
FOR_ALL_BUFFERS(buf)
abort = abort || set_ref_in_item(&buf->b_bufvar.di_tv, copyID,
NULL, NULL);
// window-local variables
FOR_ALL_TAB_WINDOWS(tp, wp)
abort = abort || set_ref_in_item(&wp->w_winvar.di_tv, copyID,
NULL, NULL);
// window-local variables in autocmd windows
for (int i = 0; i < AUCMD_WIN_COUNT; ++i)
if (aucmd_win[i].auc_win != NULL)
abort = abort || set_ref_in_item(
&aucmd_win[i].auc_win->w_winvar.di_tv, copyID, NULL, NULL);
#ifdef FEAT_PROP_POPUP
FOR_ALL_POPUPWINS(wp)
abort = abort || set_ref_in_item(&wp->w_winvar.di_tv, copyID,
NULL, NULL);
FOR_ALL_TABPAGES(tp)
FOR_ALL_POPUPWINS_IN_TAB(tp, wp)
abort = abort || set_ref_in_item(&wp->w_winvar.di_tv, copyID,
NULL, NULL);
#endif
// tabpage-local variables
FOR_ALL_TABPAGES(tp)
abort = abort || set_ref_in_item(&tp->tp_winvar.di_tv, copyID,
NULL, NULL);
// global variables
abort = abort || garbage_collect_globvars(copyID);
// function-local variables
abort = abort || set_ref_in_call_stack(copyID);
// named functions (matters for closures)
abort = abort || set_ref_in_functions(copyID);
// function call arguments, if v:testing is set.
abort = abort || set_ref_in_func_args(copyID);
// funcstacks keep variables for closures
abort = abort || set_ref_in_funcstacks(copyID);
// loopvars keep variables for loop blocks
abort = abort || set_ref_in_loopvars(copyID);
// v: vars
abort = abort || garbage_collect_vimvars(copyID);
// callbacks in buffers
abort = abort || set_ref_in_buffers(copyID);
// 'completefunc', 'omnifunc' and 'thesaurusfunc' callbacks
abort = abort || set_ref_in_insexpand_funcs(copyID);
// 'operatorfunc' callback
abort = abort || set_ref_in_opfunc(copyID);
// 'tagfunc' callback
abort = abort || set_ref_in_tagfunc(copyID);
// 'imactivatefunc' and 'imstatusfunc' callbacks
abort = abort || set_ref_in_im_funcs(copyID);
#ifdef FEAT_LUA
abort = abort || set_ref_in_lua(copyID);
#endif
#ifdef FEAT_PYTHON
abort = abort || set_ref_in_python(copyID);
#endif
#ifdef FEAT_PYTHON3
abort = abort || set_ref_in_python3(copyID);
#endif
#ifdef FEAT_JOB_CHANNEL
abort = abort || set_ref_in_channel(copyID);
abort = abort || set_ref_in_job(copyID);
#endif
#ifdef FEAT_NETBEANS_INTG
abort = abort || set_ref_in_nb_channel(copyID);
#endif
#ifdef FEAT_TIMERS
abort = abort || set_ref_in_timer(copyID);
#endif
#ifdef FEAT_QUICKFIX
abort = abort || set_ref_in_quickfix(copyID);
#endif
#ifdef FEAT_TERMINAL
abort = abort || set_ref_in_term(copyID);
#endif
#ifdef FEAT_PROP_POPUP
abort = abort || set_ref_in_popups(copyID);
#endif
abort = abort || set_ref_in_classes(copyID);
if (!abort)
{
/*
* 2. Free lists and dictionaries that are not referenced.
*/
did_free = free_unref_items(copyID);
/*
* 3. Check if any funccal can be freed now.
* This may call us back recursively.
*/
free_unref_funccal(copyID, testing);
}
else if (p_verbose > 0)
{
verb_msg(_("Not enough memory to set references, garbage collection aborted!"));
}
return did_free;
}
/*
* Free lists, dictionaries, channels and jobs that are no longer referenced.
*/
static int
free_unref_items(int copyID)
{
int did_free = FALSE;
// Let all "free" functions know that we are here. This means no
// dictionaries, lists, channels or jobs are to be freed, because we will
// do that here.
in_free_unref_items = TRUE;
/*
* PASS 1: free the contents of the items. We don't free the items
* themselves yet, so that it is possible to decrement refcount counters
*/
// Go through the list of dicts and free items without this copyID.
did_free |= dict_free_nonref(copyID);
// Go through the list of lists and free items without this copyID.
did_free |= list_free_nonref(copyID);
// Go through the list of objects and free items without this copyID.
did_free |= object_free_nonref(copyID);
// Go through the list of classes and free items without this copyID.
did_free |= class_free_nonref(copyID);
#ifdef FEAT_JOB_CHANNEL
// Go through the list of jobs and free items without the copyID. This
// must happen before doing channels, because jobs refer to channels, but
// the reference from the channel to the job isn't tracked.
did_free |= free_unused_jobs_contents(copyID, COPYID_MASK);
// Go through the list of channels and free items without the copyID.
did_free |= free_unused_channels_contents(copyID, COPYID_MASK);
#endif
/*
* PASS 2: free the items themselves.
*/
object_free_items(copyID);
dict_free_items(copyID);
list_free_items(copyID);
#ifdef FEAT_JOB_CHANNEL
// Go through the list of jobs and free items without the copyID. This
// must happen before doing channels, because jobs refer to channels, but
// the reference from the channel to the job isn't tracked.
free_unused_jobs(copyID, COPYID_MASK);
// Go through the list of channels and free items without the copyID.
free_unused_channels(copyID, COPYID_MASK);
#endif
in_free_unref_items = FALSE;
return did_free;
}
/*
* Mark all lists and dicts referenced through hashtab "ht" with "copyID".
* "list_stack" is used to add lists to be marked. Can be NULL.
*
* Returns TRUE if setting references failed somehow.
*/
int
set_ref_in_ht(hashtab_T *ht, int copyID, list_stack_T **list_stack)
{
int todo;
int abort = FALSE;
hashitem_T *hi;
hashtab_T *cur_ht;
ht_stack_T *ht_stack = NULL;
ht_stack_T *tempitem;
cur_ht = ht;
for (;;)
{
if (!abort)
{
// Mark each item in the hashtab. If the item contains a hashtab
// it is added to ht_stack, if it contains a list it is added to
// list_stack.
todo = (int)cur_ht->ht_used;
FOR_ALL_HASHTAB_ITEMS(cur_ht, hi, todo)
if (!HASHITEM_EMPTY(hi))
{
--todo;
abort = abort || set_ref_in_item(&HI2DI(hi)->di_tv, copyID,
&ht_stack, list_stack);
}
}
if (ht_stack == NULL)
break;
// take an item from the stack
cur_ht = ht_stack->ht;
tempitem = ht_stack;
ht_stack = ht_stack->prev;
free(tempitem);
}
return abort;
}
#if defined(FEAT_LUA) || defined(FEAT_PYTHON) || defined(FEAT_PYTHON3) \
|| defined(PROTO)
/*
* Mark a dict and its items with "copyID".
* Returns TRUE if setting references failed somehow.
*/
int
set_ref_in_dict(dict_T *d, int copyID)
{
if (d != NULL && d->dv_copyID != copyID)
{
d->dv_copyID = copyID;
return set_ref_in_ht(&d->dv_hashtab, copyID, NULL);
}
return FALSE;
}
#endif
/*
* Mark a list and its items with "copyID".
* Returns TRUE if setting references failed somehow.
*/
int
set_ref_in_list(list_T *ll, int copyID)
{
if (ll != NULL && ll->lv_copyID != copyID)
{
ll->lv_copyID = copyID;
return set_ref_in_list_items(ll, copyID, NULL);
}
return FALSE;
}
/*
* Mark all lists and dicts referenced through list "l" with "copyID".
* "ht_stack" is used to add hashtabs to be marked. Can be NULL.
*
* Returns TRUE if setting references failed somehow.
*/
int
set_ref_in_list_items(list_T *l, int copyID, ht_stack_T **ht_stack)
{
listitem_T *li;
int abort = FALSE;
list_T *cur_l;
list_stack_T *list_stack = NULL;
list_stack_T *tempitem;
cur_l = l;
for (;;)
{
if (!abort && cur_l->lv_first != &range_list_item)
// Mark each item in the list. If the item contains a hashtab
// it is added to ht_stack, if it contains a list it is added to
// list_stack.
for (li = cur_l->lv_first; !abort && li != NULL; li = li->li_next)
abort = abort || set_ref_in_item(&li->li_tv, copyID,
ht_stack, &list_stack);
if (list_stack == NULL)
break;
// take an item from the stack
cur_l = list_stack->list;
tempitem = list_stack;
list_stack = list_stack->prev;
free(tempitem);
}
return abort;
}
/*
* Mark the partial in callback 'cb' with "copyID".
*/
int
set_ref_in_callback(callback_T *cb, int copyID)
{
typval_T tv;
if (cb->cb_name == NULL || *cb->cb_name == NUL || cb->cb_partial == NULL)
return FALSE;
tv.v_type = VAR_PARTIAL;
tv.vval.v_partial = cb->cb_partial;
return set_ref_in_item(&tv, copyID, NULL, NULL);
}
/*
* Mark the dict "dd" with "copyID".
* Also see set_ref_in_item().
*/
static int
set_ref_in_item_dict(
dict_T *dd,
int copyID,
ht_stack_T **ht_stack,
list_stack_T **list_stack)
{
if (dd == NULL || dd->dv_copyID == copyID)
return FALSE;
// Didn't see this dict yet.
dd->dv_copyID = copyID;
if (ht_stack == NULL)
return set_ref_in_ht(&dd->dv_hashtab, copyID, list_stack);
ht_stack_T *newitem = ALLOC_ONE(ht_stack_T);
if (newitem == NULL)
return TRUE;
newitem->ht = &dd->dv_hashtab;
newitem->prev = *ht_stack;
*ht_stack = newitem;
return FALSE;
}
/*
* Mark the list "ll" with "copyID".
* Also see set_ref_in_item().
*/
static int
set_ref_in_item_list(
list_T *ll,
int copyID,
ht_stack_T **ht_stack,
list_stack_T **list_stack)
{
if (ll == NULL || ll->lv_copyID == copyID)
return FALSE;
// Didn't see this list yet.
ll->lv_copyID = copyID;
if (list_stack == NULL)
return set_ref_in_list_items(ll, copyID, ht_stack);
list_stack_T *newitem = ALLOC_ONE(list_stack_T);
if (newitem == NULL)
return TRUE;
newitem->list = ll;
newitem->prev = *list_stack;
*list_stack = newitem;
return FALSE;
}
/*
* Mark the partial "pt" with "copyID".
* Also see set_ref_in_item().
*/
static int
set_ref_in_item_partial(
partial_T *pt,
int copyID,
ht_stack_T **ht_stack,
list_stack_T **list_stack)
{
if (pt == NULL || pt->pt_copyID == copyID)
return FALSE;
// Didn't see this partial yet.
pt->pt_copyID = copyID;
int abort = set_ref_in_func(pt->pt_name, pt->pt_func, copyID);
if (pt->pt_dict != NULL)
{
typval_T dtv;
dtv.v_type = VAR_DICT;
dtv.vval.v_dict = pt->pt_dict;
set_ref_in_item(&dtv, copyID, ht_stack, list_stack);
}
if (pt->pt_obj != NULL)
{
typval_T objtv;
objtv.v_type = VAR_OBJECT;
objtv.vval.v_object = pt->pt_obj;
set_ref_in_item(&objtv, copyID, ht_stack, list_stack);
}
for (int i = 0; i < pt->pt_argc; ++i)
abort = abort || set_ref_in_item(&pt->pt_argv[i], copyID,
ht_stack, list_stack);
// pt_funcstack is handled in set_ref_in_funcstacks()
// pt_loopvars is handled in set_ref_in_loopvars()
return abort;
}
#ifdef FEAT_JOB_CHANNEL
/*
* Mark the job "pt" with "copyID".
* Also see set_ref_in_item().
*/
static int
set_ref_in_item_job(
job_T *job,
int copyID,
ht_stack_T **ht_stack,
list_stack_T **list_stack)
{
typval_T dtv;
if (job == NULL || job->jv_copyID == copyID)
return FALSE;
job->jv_copyID = copyID;
if (job->jv_channel != NULL)
{
dtv.v_type = VAR_CHANNEL;
dtv.vval.v_channel = job->jv_channel;
set_ref_in_item(&dtv, copyID, ht_stack, list_stack);
}
if (job->jv_exit_cb.cb_partial != NULL)
{
dtv.v_type = VAR_PARTIAL;
dtv.vval.v_partial = job->jv_exit_cb.cb_partial;
set_ref_in_item(&dtv, copyID, ht_stack, list_stack);
}
return FALSE;
}
/*
* Mark the channel "ch" with "copyID".
* Also see set_ref_in_item().
*/
static int
set_ref_in_item_channel(
channel_T *ch,
int copyID,
ht_stack_T **ht_stack,
list_stack_T **list_stack)
{
typval_T dtv;
if (ch == NULL || ch->ch_copyID == copyID)
return FALSE;
ch->ch_copyID = copyID;
for (ch_part_T part = PART_SOCK; part < PART_COUNT; ++part)
{
for (jsonq_T *jq = ch->ch_part[part].ch_json_head.jq_next;
jq != NULL; jq = jq->jq_next)
set_ref_in_item(jq->jq_value, copyID, ht_stack, list_stack);
for (cbq_T *cq = ch->ch_part[part].ch_cb_head.cq_next; cq != NULL;
cq = cq->cq_next)
if (cq->cq_callback.cb_partial != NULL)
{
dtv.v_type = VAR_PARTIAL;
dtv.vval.v_partial = cq->cq_callback.cb_partial;
set_ref_in_item(&dtv, copyID, ht_stack, list_stack);
}
if (ch->ch_part[part].ch_callback.cb_partial != NULL)
{
dtv.v_type = VAR_PARTIAL;
dtv.vval.v_partial = ch->ch_part[part].ch_callback.cb_partial;
set_ref_in_item(&dtv, copyID, ht_stack, list_stack);
}
}
if (ch->ch_callback.cb_partial != NULL)
{
dtv.v_type = VAR_PARTIAL;
dtv.vval.v_partial = ch->ch_callback.cb_partial;
set_ref_in_item(&dtv, copyID, ht_stack, list_stack);
}
if (ch->ch_close_cb.cb_partial != NULL)
{
dtv.v_type = VAR_PARTIAL;
dtv.vval.v_partial = ch->ch_close_cb.cb_partial;
set_ref_in_item(&dtv, copyID, ht_stack, list_stack);
}
return FALSE;
}
#endif
/*
* Mark the class "cl" with "copyID".
* Also see set_ref_in_item().
*/
int
set_ref_in_item_class(
class_T *cl,
int copyID,
ht_stack_T **ht_stack,
list_stack_T **list_stack)
{
int abort = FALSE;
if (cl == NULL || cl->class_copyID == copyID)
return FALSE;
cl->class_copyID = copyID;
if (cl->class_members_tv != NULL)
{
// The "class_members_tv" table is allocated only for regular classes
// and not for interfaces.
for (int i = 0; !abort && i < cl->class_class_member_count; ++i)
abort = abort || set_ref_in_item(
&cl->class_members_tv[i],
copyID, ht_stack, list_stack);
}
for (int i = 0; !abort && i < cl->class_class_function_count; ++i)
abort = abort || set_ref_in_func(NULL,
cl->class_class_functions[i], copyID);
for (int i = 0; !abort && i < cl->class_obj_method_count; ++i)
abort = abort || set_ref_in_func(NULL,
cl->class_obj_methods[i], copyID);
return abort;
}
/*
* Mark the object "cl" with "copyID".
* Also see set_ref_in_item().
*/
static int
set_ref_in_item_object(
object_T *obj,
int copyID,
ht_stack_T **ht_stack,
list_stack_T **list_stack)
{
int abort = FALSE;
if (obj == NULL || obj->obj_copyID == copyID)
return FALSE;
obj->obj_copyID = copyID;
// The typval_T array is right after the object_T.
typval_T *mtv = (typval_T *)(obj + 1);
for (int i = 0; !abort
&& i < obj->obj_class->class_obj_member_count; ++i)
abort = abort || set_ref_in_item(mtv + i, copyID,
ht_stack, list_stack);
return abort;
}
/*
* Mark all lists, dicts and other container types referenced through typval
* "tv" with "copyID".
* "list_stack" is used to add lists to be marked. Can be NULL.
* "ht_stack" is used to add hashtabs to be marked. Can be NULL.
*
* Returns TRUE if setting references failed somehow.
*/
int
set_ref_in_item(
typval_T *tv,
int copyID,
ht_stack_T **ht_stack,
list_stack_T **list_stack)
{
int abort = FALSE;
switch (tv->v_type)
{
case VAR_DICT:
return set_ref_in_item_dict(tv->vval.v_dict, copyID,
ht_stack, list_stack);
case VAR_LIST:
return set_ref_in_item_list(tv->vval.v_list, copyID,
ht_stack, list_stack);
case VAR_FUNC:
{
abort = set_ref_in_func(tv->vval.v_string, NULL, copyID);
break;
}
case VAR_PARTIAL:
return set_ref_in_item_partial(tv->vval.v_partial, copyID,
ht_stack, list_stack);
case VAR_JOB:
#ifdef FEAT_JOB_CHANNEL
return set_ref_in_item_job(tv->vval.v_job, copyID,
ht_stack, list_stack);
#else
break;
#endif
case VAR_CHANNEL:
#ifdef FEAT_JOB_CHANNEL
return set_ref_in_item_channel(tv->vval.v_channel, copyID,
ht_stack, list_stack);
#else
break;
#endif
case VAR_CLASS:
return set_ref_in_item_class(tv->vval.v_class, copyID,
ht_stack, list_stack);
case VAR_OBJECT:
return set_ref_in_item_object(tv->vval.v_object, copyID,
ht_stack, list_stack);
case VAR_UNKNOWN:
case VAR_ANY:
case VAR_VOID:
case VAR_BOOL:
case VAR_SPECIAL:
case VAR_NUMBER:
case VAR_FLOAT:
case VAR_STRING:
case VAR_BLOB:
case VAR_TYPEALIAS:
case VAR_INSTR:
// Types that do not contain any other item
break;
}
return abort;
}
#endif
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