-/* PSPP - computes sample statistics.
+/* PSPP - a program for statistical analysis.
Copyright (C) 2006 Free Software Foundation, Inc.
- This program 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 2 of the
- License, or (at your option) any later version.
+ This program 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.
- This program 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.
+ This program 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 this program; if not, write to the Free Software
- Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
- 02110-1301, USA. */
+ along with this program. If not, see <http://www.gnu.org/licenses/>. */
/* Circular doubly linked lists.
ll_for_each (foo, struct foo, ll, &list)
{
...do something with foo->x...
- }
+ }
*/
/* Returns the data structure corresponding to the given node LL,
\f
/* Iteration helper macros. */
-/* Sets DATA to each object in LIST in turn, assuming that each
+/* Sets DATA to each object in LIST in turn, in forward or
+ reverse order, assuming that each
`struct ll' in LIST is embedded as the given MEMBER name in
data type STRUCT.
for (DATA = ll_head__ (STRUCT, MEMBER, LIST); \
DATA != NULL; \
DATA = ll_next__ (DATA, STRUCT, MEMBER, LIST))
+#define ll_for_each_reverse(DATA, STRUCT, MEMBER, LIST) \
+ for (DATA = ll_tail__ (STRUCT, MEMBER, LIST); \
+ DATA != NULL; \
+ DATA = ll_prev__ (DATA, STRUCT, MEMBER, LIST))
/* Continues a iteration of LIST, starting from the object
- currently in DATA and continuing forward through the remainder
- of the list, assuming that each `struct ll' in LIST is
- embedded as the given MEMBER name in data type STRUCT.
+ currently in DATA and continuing, in forward or reverse order,
+ through the remainder of the list, assuming that each `struct
+ ll' in LIST is embedded as the given MEMBER name in data type
+ STRUCT.
Behavior is undefined if DATA is removed from the list between
loop iterations. */
for (; \
DATA != NULL; \
DATA = ll_next__ (DATA, STRUCT, MEMBER, LIST))
+#define ll_for_each_reverse_continue(DATA, STRUCT, MEMBER, LIST) \
+ for (; \
+ DATA != NULL; \
+ DATA = ll_prev__ (DATA, STRUCT, MEMBER, LIST))
-/* Sets DATA to each object in LIST in turn, assuming that each
- `struct ll' in LIST is embedded as the given MEMBER name in
- data type STRUCT. NEXT must be another variable of the same
- type as DATA.
+/* Sets DATA to each object in LIST in turn, in forward or
+ reverse order, assuming that each `struct ll' in LIST is
+ embedded as the given MEMBER name in data type STRUCT. NEXT
+ (or PREV) must be another variable of the same type as DATA.
Behavior is well-defined even if DATA is removed from the list
between iterations. */
? (NEXT = ll_next__ (DATA, STRUCT, MEMBER, LIST), 1) \
: 0); \
DATA = NEXT)
+#define ll_for_each_reverse_safe(DATA, PREV, STRUCT, MEMBER, LIST) \
+ for (DATA = ll_tail__ (STRUCT, MEMBER, LIST); \
+ (DATA != NULL \
+ ? (PREV = ll_prev__ (DATA, STRUCT, MEMBER, LIST), 1) \
+ : 0); \
+ DATA = PREV)
-/* Continues a iteration of LIST, starting from the object
- currently in DATA and continuing forward through the remainder
- of the list, assuming that each `struct ll' in LIST is
- embedded as the given MEMBER name in data type STRUCT. NEXT
- must be another variable of the same type as DATA.
+/* Continues a iteration of LIST, in forward or reverse order,
+ starting from the object currently in DATA and continuing
+ forward through the remainder of the list, assuming that each
+ `struct ll' in LIST is embedded as the given MEMBER name in
+ data type STRUCT. NEXT (or PREV) must be another variable of
+ the same type as DATA.
Behavior is well-defined even if DATA is removed from the list
between iterations. */
? (NEXT = ll_next__ (DATA, STRUCT, MEMBER, LIST), 1) \
: 0); \
DATA = NEXT)
+#define ll_for_each_safe_reverse_continue(DATA, PREV, STRUCT, MEMBER, LIST) \
+ for (; \
+ (DATA != NULL \
+ ? (PREV = ll_prev__ (DATA, STRUCT, MEMBER, LIST), 1) \
+ : 0); \
+ DATA = PREV)
-/* Sets DATA to each object in LIST in turn, assuming that each
- `struct ll' in LIST is embedded as the given MEMBER name in
- data type STRUCT.
+/* Sets DATA to each object in LIST in turn, in forward or
+ reverse order, assuming that each `struct ll' in LIST is
+ embedded as the given MEMBER name in data type STRUCT.
Each object is removed from LIST before its loop iteration. */
#define ll_for_each_preremove(DATA, STRUCT, MEMBER, LIST) \
while (!ll_is_empty (LIST) \
? (DATA = ll_data (ll_pop_head (LIST), STRUCT, MEMBER), 1) \
: 0)
+#define ll_for_each_reverse_preremove(DATA, STRUCT, MEMBER, LIST) \
+ while (!ll_is_empty (LIST) \
+ ? (DATA = ll_data (ll_pop_tail (LIST), STRUCT, MEMBER), 1) \
+ : 0)
-/* Sets DATA to each object in LIST in turn, assuming that each
- `struct ll' in LIST is embedded as the given MEMBER name in
- data type STRUCT.
+/* Sets DATA to each object in LIST in turn, in forward or
+ reverse order, assuming that each `struct ll' in LIST is
+ embedded as the given MEMBER name in data type STRUCT.
At the end of each loop iteration, DATA is removed from the
list. */
#define ll_for_each_postremove(DATA, STRUCT, MEMBER, LIST) \
for (; \
(DATA = ll_head__ (STRUCT, MEMBER, LIST)) != NULL; \
ll_remove (&DATA->MEMBER))
+#define ll_for_each_reverse_postremove(DATA, STRUCT, MEMBER, LIST) \
+ for (; \
+ (DATA = ll_tail__ (STRUCT, MEMBER, LIST)) != NULL; \
+ ll_remove (&DATA->MEMBER))
/* Macros for internal use only. */
#define ll_data__(LL, STRUCT, MEMBER, LIST) \
((LL) != ll_null (LIST) ? ll_data (LL, STRUCT, MEMBER) : NULL)
#define ll_head__(STRUCT, MEMBER, LIST) \
ll_data__ (ll_head (LIST), STRUCT, MEMBER, LIST)
+#define ll_tail__(STRUCT, MEMBER, LIST) \
+ ll_data__ (ll_tail (LIST), STRUCT, MEMBER, LIST)
#define ll_next__(DATA, STRUCT, MEMBER, LIST) \
- ll_data__ (ll_next (&DATA->MEMBER), STRUCT, MEMBER, LIST)
-#define ll_remove__(DATA, STRUCT, MEMBER, LIST) \
- (ll_next (&DATA->MEMBER) == ll_null (LIST) \
- ? ll_remove (&DATA->MEMBER), NULL \
- : ll_data (ll_remove (&DATA->MEMBER), STRUCT, MEMBER))
+ ll_data__ (ll_next (&(DATA)->MEMBER), STRUCT, MEMBER, LIST)
+#define ll_prev__(DATA, STRUCT, MEMBER, LIST) \
+ ll_data__ (ll_prev (&(DATA)->MEMBER), STRUCT, MEMBER, LIST)
\f
/* Inline functions. */
/* Initializes LIST as an empty list. */
static inline void
-ll_init (struct ll_list *list)
+ll_init (struct ll_list *list)
{
list->null.next = list->null.prev = &list->null;
}
false if LIST is not empty (has at least one other node).
Executes in O(1) time. */
static inline bool
-ll_is_empty (const struct ll_list *list)
+ll_is_empty (const struct ll_list *list)
{
return ll_head (list) == ll_null (list);
}
/* Returns the last node in LIST,
or the null node if LIST is empty. */
static inline struct ll *
-ll_tail (const struct ll_list *list)
+ll_tail (const struct ll_list *list)
{
return ll_prev (ll_null (list));
}
/* Returns LIST's null node. */
static inline struct ll *
-ll_null (const struct ll_list *list)
+ll_null (const struct ll_list *list)
{
return (struct ll *) &list->null;
}
or the null node if LL is at the end of its list.
(In an empty list, the null node follows itself.) */
static inline struct ll *
-ll_next (const struct ll *ll)
+ll_next (const struct ll *ll)
{
return ll->next;
}
/* Inserts LL at the head of LIST. */
static inline void
-ll_push_head (struct ll_list *list, struct ll *ll)
+ll_push_head (struct ll_list *list, struct ll *ll)
{
ll_insert (ll_head (list), ll);
}
/* Inserts LL at the tail of LIST. */
static inline void
-ll_push_tail (struct ll_list *list, struct ll *ll)
+ll_push_tail (struct ll_list *list, struct ll *ll)
{
ll_insert (ll_null (list), ll);
}
/* Removes and returns the last node in LIST,
which must not be empty. */
static inline struct ll *
-ll_pop_tail (struct ll_list *list)
+ll_pop_tail (struct ll_list *list)
{
struct ll *tail;
assert (!ll_is_empty (list));
/* Inserts NEW_ELEM just before BEFORE.
(NEW_ELEM must not already be in a list.) */
static inline void
-ll_insert (struct ll *before, struct ll *new_elem)
+ll_insert (struct ll *before, struct ll *new_elem)
{
struct ll *before_prev = ll_prev (before);
new_elem->next = before;
/* Removes R0...R1 from their list. */
static inline void
-ll_remove_range (struct ll *r0, struct ll *r1)
+ll_remove_range (struct ll *r0, struct ll *r1)
{
- if (r0 != r1)
+ if (r0 != r1)
{
r1 = r1->prev;
r0->prev->next = r1->next;
before moving LL, then ll_insert() afterward, but more
efficient. */
static inline void
-ll_moved (struct ll *ll)
+ll_moved (struct ll *ll)
{
ll->prev->next = ll->next->prev = ll;
}