/* 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. */ /* * list.c: List support */ #include "vim.h" #if defined(FEAT_EVAL) || defined(PROTO) /* List heads for garbage collection. */ static list_T *first_list = NULL; /* list of all lists */ /* * Add a watcher to a list. */ void list_add_watch(list_T *l, listwatch_T *lw) { lw->lw_next = l->lv_watch; l->lv_watch = lw; } /* * Remove a watcher from a list. * No warning when it isn't found... */ void list_rem_watch(list_T *l, listwatch_T *lwrem) { listwatch_T *lw, **lwp; lwp = &l->lv_watch; for (lw = l->lv_watch; lw != NULL; lw = lw->lw_next) { if (lw == lwrem) { *lwp = lw->lw_next; break; } lwp = &lw->lw_next; } } /* * Just before removing an item from a list: advance watchers to the next * item. */ void list_fix_watch(list_T *l, listitem_T *item) { listwatch_T *lw; for (lw = l->lv_watch; lw != NULL; lw = lw->lw_next) if (lw->lw_item == item) lw->lw_item = item->li_next; } /* * Allocate an empty header for a list. * Caller should take care of the reference count. */ list_T * list_alloc(void) { list_T *l; l = (list_T *)alloc_clear(sizeof(list_T)); if (l != NULL) { /* Prepend the list to the list of lists for garbage collection. */ if (first_list != NULL) first_list->lv_used_prev = l; l->lv_used_prev = NULL; l->lv_used_next = first_list; first_list = l; } return l; } /* * Allocate an empty list for a return value, with reference count set. * Returns OK or FAIL. */ int rettv_list_alloc(typval_T *rettv) { list_T *l = list_alloc(); if (l == NULL) return FAIL; rettv->v_lock = 0; rettv_list_set(rettv, l); return OK; } /* * Set a list as the return value */ void rettv_list_set(typval_T *rettv, list_T *l) { rettv->v_type = VAR_LIST; rettv->vval.v_list = l; if (l != NULL) ++l->lv_refcount; } /* * Unreference a list: decrement the reference count and free it when it * becomes zero. */ void list_unref(list_T *l) { if (l != NULL && --l->lv_refcount <= 0) list_free(l); } /* * Free a list, including all non-container items it points to. * Ignores the reference count. */ static void list_free_contents(list_T *l) { listitem_T *item; for (item = l->lv_first; item != NULL; item = l->lv_first) { /* Remove the item before deleting it. */ l->lv_first = item->li_next; clear_tv(&item->li_tv); vim_free(item); } } /* * Go through the list of lists and free items without the copyID. * But don't free a list that has a watcher (used in a for loop), these * are not referenced anywhere. */ int list_free_nonref(int copyID) { list_T *ll; int did_free = FALSE; for (ll = first_list; ll != NULL; ll = ll->lv_used_next) if ((ll->lv_copyID & COPYID_MASK) != (copyID & COPYID_MASK) && ll->lv_watch == NULL) { /* Free the List and ordinary items it contains, but don't recurse * into Lists and Dictionaries, they will be in the list of dicts * or list of lists. */ list_free_contents(ll); did_free = TRUE; } return did_free; } static void list_free_list(list_T *l) { /* Remove the list from the list of lists for garbage collection. */ if (l->lv_used_prev == NULL) first_list = l->lv_used_next; else l->lv_used_prev->lv_used_next = l->lv_used_next; if (l->lv_used_next != NULL) l->lv_used_next->lv_used_prev = l->lv_used_prev; vim_free(l); } void list_free_items(int copyID) { list_T *ll, *ll_next; for (ll = first_list; ll != NULL; ll = ll_next) { ll_next = ll->lv_used_next; if ((ll->lv_copyID & COPYID_MASK) != (copyID & COPYID_MASK) && ll->lv_watch == NULL) { /* Free the List and ordinary items it contains, but don't recurse * into Lists and Dictionaries, they will be in the list of dicts * or list of lists. */ list_free_list(ll); } } } void list_free(list_T *l) { if (!in_free_unref_items) { list_free_contents(l); list_free_list(l); } } /* * Allocate a list item. * It is not initialized, don't forget to set v_lock. */ listitem_T * listitem_alloc(void) { return (listitem_T *)alloc(sizeof(listitem_T)); } /* * Free a list item. Also clears the value. Does not notify watchers. */ void listitem_free(listitem_T *item) { clear_tv(&item->li_tv); vim_free(item); } /* * Remove a list item from a List and free it. Also clears the value. */ void listitem_remove(list_T *l, listitem_T *item) { vimlist_remove(l, item, item); listitem_free(item); } /* * Get the number of items in a list. */ long list_len(list_T *l) { if (l == NULL) return 0L; return l->lv_len; } /* * Return TRUE when two lists have exactly the same values. */ int list_equal( list_T *l1, list_T *l2, int ic, /* ignore case for strings */ int recursive) /* TRUE when used recursively */ { listitem_T *item1, *item2; if (l1 == NULL || l2 == NULL) return FALSE; if (l1 == l2) return TRUE; if (list_len(l1) != list_len(l2)) return FALSE; for (item1 = l1->lv_first, item2 = l2->lv_first; item1 != NULL && item2 != NULL; item1 = item1->li_next, item2 = item2->li_next) if (!tv_equal(&item1->li_tv, &item2->li_tv, ic, recursive)) return FALSE; return item1 == NULL && item2 == NULL; } /* * Locate item with index "n" in list "l" and return it. * A negative index is counted from the end; -1 is the last item. * Returns NULL when "n" is out of range. */ listitem_T * list_find(list_T *l, long n) { listitem_T *item; long idx; if (l == NULL) return NULL; /* Negative index is relative to the end. */ if (n < 0) n = l->lv_len + n; /* Check for index out of range. */ if (n < 0 || n >= l->lv_len) return NULL; /* When there is a cached index may start search from there. */ if (l->lv_idx_item != NULL) { if (n < l->lv_idx / 2) { /* closest to the start of the list */ item = l->lv_first; idx = 0; } else if (n > (l->lv_idx + l->lv_len) / 2) { /* closest to the end of the list */ item = l->lv_last; idx = l->lv_len - 1; } else { /* closest to the cached index */ item = l->lv_idx_item; idx = l->lv_idx; } } else { if (n < l->lv_len / 2) { /* closest to the start of the list */ item = l->lv_first; idx = 0; } else { /* closest to the end of the list */ item = l->lv_last; idx = l->lv_len - 1; } } while (n > idx) { /* search forward */ item = item->li_next; ++idx; } while (n < idx) { /* search backward */ item = item->li_prev; --idx; } /* cache the used index */ l->lv_idx = idx; l->lv_idx_item = item; return item; } /* * Get list item "l[idx]" as a number. */ long list_find_nr( list_T *l, long idx, int *errorp) /* set to TRUE when something wrong */ { listitem_T *li; li = list_find(l, idx); if (li == NULL) { if (errorp != NULL) *errorp = TRUE; return -1L; } return (long)get_tv_number_chk(&li->li_tv, errorp); } /* * Get list item "l[idx - 1]" as a string. Returns NULL for failure. */ char_u * list_find_str(list_T *l, long idx) { listitem_T *li; li = list_find(l, idx - 1); if (li == NULL) { EMSGN(_(e_listidx), idx); return NULL; } return get_tv_string(&li->li_tv); } /* * Locate "item" list "l" and return its index. * Returns -1 when "item" is not in the list. */ long list_idx_of_item(list_T *l, listitem_T *item) { long idx = 0; listitem_T *li; if (l == NULL) return -1; idx = 0; for (li = l->lv_first; li != NULL && li != item; li = li->li_next) ++idx; if (li == NULL) return -1; return idx; } /* * Append item "item" to the end of list "l". */ void list_append(list_T *l, listitem_T *item) { if (l->lv_last == NULL) { /* empty list */ l->lv_first = item; l->lv_last = item; item->li_prev = NULL; } else { l->lv_last->li_next = item; item->li_prev = l->lv_last; l->lv_last = item; } ++l->lv_len; item->li_next = NULL; } /* * Append typval_T "tv" to the end of list "l". * Return FAIL when out of memory. */ int list_append_tv(list_T *l, typval_T *tv) { listitem_T *li = listitem_alloc(); if (li == NULL) return FAIL; copy_tv(tv, &li->li_tv); list_append(l, li); return OK; } /* * Add a dictionary to a list. Used by getqflist(). * Return FAIL when out of memory. */ int list_append_dict(list_T *list, dict_T *dict) { listitem_T *li = listitem_alloc(); if (li == NULL) return FAIL; li->li_tv.v_type = VAR_DICT; li->li_tv.v_lock = 0; li->li_tv.vval.v_dict = dict; list_append(list, li); ++dict->dv_refcount; return OK; } /* * Make a copy of "str" and append it as an item to list "l". * When "len" >= 0 use "str[len]". * Returns FAIL when out of memory. */ int list_append_string(list_T *l, char_u *str, int len) { listitem_T *li = listitem_alloc(); if (li == NULL) return FAIL; list_append(l, li); li->li_tv.v_type = VAR_STRING; li->li_tv.v_lock = 0; if (str == NULL) li->li_tv.vval.v_string = NULL; else if ((li->li_tv.vval.v_string = (len >= 0 ? vim_strnsave(str, len) : vim_strsave(str))) == NULL) return FAIL; return OK; } /* * Append "n" to list "l". * Returns FAIL when out of memory. */ int list_append_number(list_T *l, varnumber_T n) { listitem_T *li; li = listitem_alloc(); if (li == NULL) return FAIL; li->li_tv.v_type = VAR_NUMBER; li->li_tv.v_lock = 0; li->li_tv.vval.v_number = n; list_append(l, li); return OK; } /* * Insert typval_T "tv" in list "l" before "item". * If "item" is NULL append at the end. * Return FAIL when out of memory. */ int list_insert_tv(list_T *l, typval_T *tv, listitem_T *item) { listitem_T *ni = listitem_alloc(); if (ni == NULL) return FAIL; copy_tv(tv, &ni->li_tv); list_insert(l, ni, item); return OK; } void list_insert(list_T *l, listitem_T *ni, listitem_T *item) { if (item == NULL) /* Append new item at end of list. */ list_append(l, ni); else { /* Insert new item before existing item. */ ni->li_prev = item->li_prev; ni->li_next = item; if (item->li_prev == NULL) { l->lv_first = ni; ++l->lv_idx; } else { item->li_prev->li_next = ni; l->lv_idx_item = NULL; } item->li_prev = ni; ++l->lv_len; } } /* * Extend "l1" with "l2". * If "bef" is NULL append at the end, otherwise insert before this item. * Returns FAIL when out of memory. */ int list_extend(list_T *l1, list_T *l2, listitem_T *bef) { listitem_T *item; int todo = l2->lv_len; /* We also quit the loop when we have inserted the original item count of * the list, avoid a hang when we extend a list with itself. */ for (item = l2->lv_first; item != NULL && --todo >= 0; item = item->li_next) if (list_insert_tv(l1, &item->li_tv, bef) == FAIL) return FAIL; return OK; } /* * Concatenate lists "l1" and "l2" into a new list, stored in "tv". * Return FAIL when out of memory. */ int list_concat(list_T *l1, list_T *l2, typval_T *tv) { list_T *l; if (l1 == NULL || l2 == NULL) return FAIL; /* make a copy of the first list. */ l = list_copy(l1, FALSE, 0); if (l == NULL) return FAIL; tv->v_type = VAR_LIST; tv->vval.v_list = l; /* append all items from the second list */ return list_extend(l, l2, NULL); } /* * Make a copy of list "orig". Shallow if "deep" is FALSE. * The refcount of the new list is set to 1. * See item_copy() for "copyID". * Returns NULL when out of memory. */ list_T * list_copy(list_T *orig, int deep, int copyID) { list_T *copy; listitem_T *item; listitem_T *ni; if (orig == NULL) return NULL; copy = list_alloc(); if (copy != NULL) { if (copyID != 0) { /* Do this before adding the items, because one of the items may * refer back to this list. */ orig->lv_copyID = copyID; orig->lv_copylist = copy; } for (item = orig->lv_first; item != NULL && !got_int; item = item->li_next) { ni = listitem_alloc(); if (ni == NULL) break; if (deep) { if (item_copy(&item->li_tv, &ni->li_tv, deep, copyID) == FAIL) { vim_free(ni); break; } } else copy_tv(&item->li_tv, &ni->li_tv); list_append(copy, ni); } ++copy->lv_refcount; if (item != NULL) { list_unref(copy); copy = NULL; } } return copy; } /* * Remove items "item" to "item2" from list "l". * Does not free the listitem or the value! * This used to be called list_remove, but that conflicts with a Sun header * file. */ void vimlist_remove(list_T *l, listitem_T *item, listitem_T *item2) { listitem_T *ip; /* notify watchers */ for (ip = item; ip != NULL; ip = ip->li_next) { --l->lv_len; list_fix_watch(l, ip); if (ip == item2) break; } if (item2->li_next == NULL) l->lv_last = item->li_prev; else item2->li_next->li_prev = item->li_prev; if (item->li_prev == NULL) l->lv_first = item2->li_next; else item->li_prev->li_next = item2->li_next; l->lv_idx_item = NULL; } /* * Return an allocated string with the string representation of a list. * May return NULL. */ char_u * list2string(typval_T *tv, int copyID, int restore_copyID) { garray_T ga; if (tv->vval.v_list == NULL) return NULL; ga_init2(&ga, (int)sizeof(char), 80); ga_append(&ga, '['); if (list_join(&ga, tv->vval.v_list, (char_u *)", ", FALSE, restore_copyID, copyID) == FAIL) { vim_free(ga.ga_data); return NULL; } ga_append(&ga, ']'); ga_append(&ga, NUL); return (char_u *)ga.ga_data; } typedef struct join_S { char_u *s; char_u *tofree; } join_T; static int list_join_inner( garray_T *gap, /* to store the result in */ list_T *l, char_u *sep, int echo_style, int restore_copyID, int copyID, garray_T *join_gap) /* to keep each list item string */ { int i; join_T *p; int len; int sumlen = 0; int first = TRUE; char_u *tofree; char_u numbuf[NUMBUFLEN]; listitem_T *item; char_u *s; /* Stringify each item in the list. */ for (item = l->lv_first; item != NULL && !got_int; item = item->li_next) { s = echo_string_core(&item->li_tv, &tofree, numbuf, copyID, echo_style, restore_copyID, FALSE); if (s == NULL) return FAIL; len = (int)STRLEN(s); sumlen += len; (void)ga_grow(join_gap, 1); p = ((join_T *)join_gap->ga_data) + (join_gap->ga_len++); if (tofree != NULL || s != numbuf) { p->s = s; p->tofree = tofree; } else { p->s = vim_strnsave(s, len); p->tofree = p->s; } line_breakcheck(); if (did_echo_string_emsg) /* recursion error, bail out */ break; } /* Allocate result buffer with its total size, avoid re-allocation and * multiple copy operations. Add 2 for a tailing ']' and NUL. */ if (join_gap->ga_len >= 2) sumlen += (int)STRLEN(sep) * (join_gap->ga_len - 1); if (ga_grow(gap, sumlen + 2) == FAIL) return FAIL; for (i = 0; i < join_gap->ga_len && !got_int; ++i) { if (first) first = FALSE; else ga_concat(gap, sep); p = ((join_T *)join_gap->ga_data) + i; if (p->s != NULL) ga_concat(gap, p->s); line_breakcheck(); } return OK; } /* * Join list "l" into a string in "*gap", using separator "sep". * When "echo_style" is TRUE use String as echoed, otherwise as inside a List. * Return FAIL or OK. */ int list_join( garray_T *gap, list_T *l, char_u *sep, int echo_style, int restore_copyID, int copyID) { garray_T join_ga; int retval; join_T *p; int i; if (l->lv_len < 1) return OK; /* nothing to do */ ga_init2(&join_ga, (int)sizeof(join_T), l->lv_len); retval = list_join_inner(gap, l, sep, echo_style, restore_copyID, copyID, &join_ga); /* Dispose each item in join_ga. */ if (join_ga.ga_data != NULL) { p = (join_T *)join_ga.ga_data; for (i = 0; i < join_ga.ga_len; ++i) { vim_free(p->tofree); ++p; } ga_clear(&join_ga); } return retval; } /* * Allocate a variable for a List and fill it from "*arg". * Return OK or FAIL. */ int get_list_tv(char_u **arg, typval_T *rettv, int evaluate) { list_T *l = NULL; typval_T tv; listitem_T *item; if (evaluate) { l = list_alloc(); if (l == NULL) return FAIL; } *arg = skipwhite(*arg + 1); while (**arg != ']' && **arg != NUL) { if (eval1(arg, &tv, evaluate) == FAIL) /* recursive! */ goto failret; if (evaluate) { item = listitem_alloc(); if (item != NULL) { item->li_tv = tv; item->li_tv.v_lock = 0; list_append(l, item); } else clear_tv(&tv); } if (**arg == ']') break; if (**arg != ',') { EMSG2(_("E696: Missing comma in List: %s"), *arg); goto failret; } *arg = skipwhite(*arg + 1); } if (**arg != ']') { EMSG2(_("E697: Missing end of List ']': %s"), *arg); failret: if (evaluate) list_free(l); return FAIL; } *arg = skipwhite(*arg + 1); if (evaluate) rettv_list_set(rettv, l); return OK; } /* * Write "list" of strings to file "fd". */ int write_list(FILE *fd, list_T *list, int binary) { listitem_T *li; int c; int ret = OK; char_u *s; for (li = list->lv_first; li != NULL; li = li->li_next) { for (s = get_tv_string(&li->li_tv); *s != NUL; ++s) { if (*s == '\n') c = putc(NUL, fd); else c = putc(*s, fd); if (c == EOF) { ret = FAIL; break; } } if (!binary || li->li_next != NULL) if (putc('\n', fd) == EOF) { ret = FAIL; break; } if (ret == FAIL) { EMSG(_(e_write)); break; } } return ret; } /* * Initialize a static list with 10 items. */ void init_static_list(staticList10_T *sl) { list_T *l = &sl->sl_list; int i; memset(sl, 0, sizeof(staticList10_T)); l->lv_first = &sl->sl_items[0]; l->lv_last = &sl->sl_items[9]; l->lv_refcount = DO_NOT_FREE_CNT; l->lv_lock = VAR_FIXED; sl->sl_list.lv_len = 10; for (i = 0; i < 10; ++i) { listitem_T *li = &sl->sl_items[i]; if (i == 0) li->li_prev = NULL; else li->li_prev = li - 1; if (i == 9) li->li_next = NULL; else li->li_next = li + 1; } } #endif /* defined(FEAT_EVAL) */