axmol/cocos2dx/support/data_support/utlist.h

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/****************************************************************************
Copyright (c) 2010 cocos2d-x.org
http://www.cocos2d-x.org
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
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****************************************************************************/
#ifndef __SUPPORT_DATA_SUPPORT_UTLIST_H__
#define __SUPPORT_DATA_SUPPORT_UTLIST_H__
namespace cocos2d {
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#define UTLIST_VERSION 1.9.1
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/*
* This file contains macros to manipulate singly and doubly-linked lists.
*
* 1. LL_ macros: singly-linked lists.
* 2. DL_ macros: doubly-linked lists.
* 3. CDL_ macros: circular doubly-linked lists.
*
* To use singly-linked lists, your structure must have a "next" pointer.
* To use doubly-linked lists, your structure must "prev" and "next" pointers.
* Either way, the pointer to the head of the list must be initialized to NULL.
*
* ----------------.EXAMPLE -------------------------
* struct item {
* int id;
* struct item *prev, *next;
* }
*
* struct item *list = NULL:
*
* int main() {
* struct item *item;
* ... allocate and populate item ...
* DL_APPEND(list, item);
* }
* --------------------------------------------------
*
* For doubly-linked lists, the append and delete macros are O(1)
* For singly-linked lists, append and delete are O(n) but prepend is O(1)
* The sort macro is O(n log(n)) for all types of single/double/circular lists.
*/
/* These macros use decltype or the earlier __typeof GNU extension.
As decltype is only available in newer compilers (VS2010 or gcc 4.3+
when compiling c++ code), this code uses whatever method is needed
or, for VS2008 where neither is available, uses casting workarounds. */
#ifdef _MSC_VER /* MS compiler */
#if _MSC_VER >= 1600 && defined(__cplusplus )/* VS2010 or newer in C++ mode */
#define LDECLTYPE(x) decltype(x)
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#else /* VS2008 or older (or VS2010 in C mode) */
#define NO_DECLTYPE
#define LDECLTYPE(x) char*
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#endif
#else /* GNU, Sun and other compilers */
#define LDECLTYPE(x) __typeof(x)
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#endif
/* for VS2008 we use some workarounds to get around the lack of decltype,
* namely, we always reassign our tmp variable to the list head if we need
* to dereference its prev/next pointers, and save/restore the real head.*/
#ifdef NO_DECLTYPE
#define _SV(elt,list) _tmp = (char*)(list); {char **_alias = (char**)&(list); *_alias = (elt); }
#define _NEXT(elt,list) ((char*)((list)->next))
#define _NEXTASGN(elt,list,to) { char **_alias = (char**)&((list)->next); *_alias=(char*)(to); }
#define _PREV(elt,list) ((char*)((list)->prev))
#define _PREVASGN(elt,list,to) { char **_alias = (char**)&((list)->prev); *_alias=(char*)(to); }
#define _RS(list) { char **_alias = (char**)&(list); *_alias=_tmp; }
#define _CASTASGN(a,b) { char **_alias = (char**)&(a); *_alias=(char*)(b); }
#else
#define _SV(elt,list)
#define _NEXT(elt,list) ((elt)->next)
#define _NEXTASGN(elt,list,to) ((elt)->next)=(to)
#define _PREV(elt,list) ((elt)->prev)
#define _PREVASGN(elt,list,to) ((elt)->prev)=(to)
#define _RS(list)
#define _CASTASGN(a,b) (a)=(b)
#endif
/******************************************************************************
* The sort macro is an adaptation of Simon Tatham's O(n log(n)) mergesort *
* Unwieldy variable names used here to avoid shadowing passed-in variables. *
*****************************************************************************/
#define LL_SORT(list, cmp) \
do { \
LDECLTYPE(list) _ls_p; \
LDECLTYPE(list) _ls_q; \
LDECLTYPE(list) _ls_e; \
LDECLTYPE(list) _ls_tail; \
LDECLTYPE(list) _ls_oldhead; \
LDECLTYPE(list) _tmp; \
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int _ls_insize, _ls_nmerges, _ls_psize, _ls_qsize, _ls_i, _ls_looping; \
if (list) { \
_ls_insize = 1; \
_ls_looping = 1; \
while (_ls_looping) { \
_CASTASGN(_ls_p,list); \
_CASTASGN(_ls_oldhead,list); \
list = NULL; \
_ls_tail = NULL; \
_ls_nmerges = 0; \
while (_ls_p) { \
_ls_nmerges++; \
_ls_q = _ls_p; \
_ls_psize = 0; \
for (_ls_i = 0; _ls_i < _ls_insize; _ls_i++) { \
_ls_psize++; \
_SV(_ls_q,list); _ls_q = _NEXT(_ls_q,list); _RS(list); \
if (!_ls_q) break; \
} \
_ls_qsize = _ls_insize; \
while (_ls_psize > 0 || (_ls_qsize > 0 && _ls_q)) { \
if (_ls_psize == 0) { \
_ls_e = _ls_q; _SV(_ls_q,list); _ls_q = _NEXT(_ls_q,list); _RS(list); _ls_qsize--; \
} else if (_ls_qsize == 0 || !_ls_q) { \
_ls_e = _ls_p; _SV(_ls_p,list); _ls_p = _NEXT(_ls_p,list); _RS(list); _ls_psize--; \
} else if (cmp(_ls_p,_ls_q) <= 0) { \
_ls_e = _ls_p; _SV(_ls_p,list); _ls_p = _NEXT(_ls_p,list); _RS(list); _ls_psize--; \
} else { \
_ls_e = _ls_q; _SV(_ls_q,list); _ls_q = _NEXT(_ls_q,list); _RS(list); _ls_qsize--; \
} \
if (_ls_tail) { \
_SV(_ls_tail,list); _NEXTASGN(_ls_tail,list,_ls_e); _RS(list); \
} else { \
_CASTASGN(list,_ls_e); \
} \
_ls_tail = _ls_e; \
} \
_ls_p = _ls_q; \
} \
_SV(_ls_tail,list); _NEXTASGN(_ls_tail,list,NULL); _RS(list); \
if (_ls_nmerges <= 1) { \
_ls_looping=0; \
} \
_ls_insize *= 2; \
} \
} else _tmp=NULL; /* quiet gcc unused variable warning */ \
} while (0)
#define DL_SORT(list, cmp) \
do { \
LDECLTYPE(list) _ls_p; \
LDECLTYPE(list) _ls_q; \
LDECLTYPE(list) _ls_e; \
LDECLTYPE(list) _ls_tail; \
LDECLTYPE(list) _ls_oldhead; \
LDECLTYPE(list) _tmp; \
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int _ls_insize, _ls_nmerges, _ls_psize, _ls_qsize, _ls_i, _ls_looping; \
if (list) { \
_ls_insize = 1; \
_ls_looping = 1; \
while (_ls_looping) { \
_CASTASGN(_ls_p,list); \
_CASTASGN(_ls_oldhead,list); \
list = NULL; \
_ls_tail = NULL; \
_ls_nmerges = 0; \
while (_ls_p) { \
_ls_nmerges++; \
_ls_q = _ls_p; \
_ls_psize = 0; \
for (_ls_i = 0; _ls_i < _ls_insize; _ls_i++) { \
_ls_psize++; \
_SV(_ls_q,list); _ls_q = _NEXT(_ls_q,list); _RS(list); \
if (!_ls_q) break; \
} \
_ls_qsize = _ls_insize; \
while (_ls_psize > 0 || (_ls_qsize > 0 && _ls_q)) { \
if (_ls_psize == 0) { \
_ls_e = _ls_q; _SV(_ls_q,list); _ls_q = _NEXT(_ls_q,list); _RS(list); _ls_qsize--; \
} else if (_ls_qsize == 0 || !_ls_q) { \
_ls_e = _ls_p; _SV(_ls_p,list); _ls_p = _NEXT(_ls_p,list); _RS(list); _ls_psize--; \
} else if (cmp(_ls_p,_ls_q) <= 0) { \
_ls_e = _ls_p; _SV(_ls_p,list); _ls_p = _NEXT(_ls_p,list); _RS(list); _ls_psize--; \
} else { \
_ls_e = _ls_q; _SV(_ls_q,list); _ls_q = _NEXT(_ls_q,list); _RS(list); _ls_qsize--; \
} \
if (_ls_tail) { \
_SV(_ls_tail,list); _NEXTASGN(_ls_tail,list,_ls_e); _RS(list); \
} else { \
_CASTASGN(list,_ls_e); \
} \
_SV(_ls_e,list); _PREVASGN(_ls_e,list,_ls_tail); _RS(list); \
_ls_tail = _ls_e; \
} \
_ls_p = _ls_q; \
} \
_CASTASGN(list->prev, _ls_tail); \
_SV(_ls_tail,list); _NEXTASGN(_ls_tail,list,NULL); _RS(list); \
if (_ls_nmerges <= 1) { \
_ls_looping=0; \
} \
_ls_insize *= 2; \
} \
} else _tmp=NULL; /* quiet gcc unused variable warning */ \
} while (0)
#define CDL_SORT(list, cmp) \
do { \
LDECLTYPE(list) _ls_p; \
LDECLTYPE(list) _ls_q; \
LDECLTYPE(list) _ls_e; \
LDECLTYPE(list) _ls_tail; \
LDECLTYPE(list) _ls_oldhead; \
LDECLTYPE(list) _tmp; \
LDECLTYPE(list) _tmp2; \
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int _ls_insize, _ls_nmerges, _ls_psize, _ls_qsize, _ls_i, _ls_looping; \
if (list) { \
_ls_insize = 1; \
_ls_looping = 1; \
while (_ls_looping) { \
_CASTASGN(_ls_p,list); \
_CASTASGN(_ls_oldhead,list); \
list = NULL; \
_ls_tail = NULL; \
_ls_nmerges = 0; \
while (_ls_p) { \
_ls_nmerges++; \
_ls_q = _ls_p; \
_ls_psize = 0; \
for (_ls_i = 0; _ls_i < _ls_insize; _ls_i++) { \
_ls_psize++; \
_SV(_ls_q,list); \
if (_NEXT(_ls_q,list) == _ls_oldhead) { \
_ls_q = NULL; \
} else { \
_ls_q = _NEXT(_ls_q,list); \
} \
_RS(list); \
if (!_ls_q) break; \
} \
_ls_qsize = _ls_insize; \
while (_ls_psize > 0 || (_ls_qsize > 0 && _ls_q)) { \
if (_ls_psize == 0) { \
_ls_e = _ls_q; _SV(_ls_q,list); _ls_q = _NEXT(_ls_q,list); _RS(list); _ls_qsize--; \
if (_ls_q == _ls_oldhead) { _ls_q = NULL; } \
} else if (_ls_qsize == 0 || !_ls_q) { \
_ls_e = _ls_p; _SV(_ls_p,list); _ls_p = _NEXT(_ls_p,list); _RS(list); _ls_psize--; \
if (_ls_p == _ls_oldhead) { _ls_p = NULL; } \
} else if (cmp(_ls_p,_ls_q) <= 0) { \
_ls_e = _ls_p; _SV(_ls_p,list); _ls_p = _NEXT(_ls_p,list); _RS(list); _ls_psize--; \
if (_ls_p == _ls_oldhead) { _ls_p = NULL; } \
} else { \
_ls_e = _ls_q; _SV(_ls_q,list); _ls_q = _NEXT(_ls_q,list); _RS(list); _ls_qsize--; \
if (_ls_q == _ls_oldhead) { _ls_q = NULL; } \
} \
if (_ls_tail) { \
_SV(_ls_tail,list); _NEXTASGN(_ls_tail,list,_ls_e); _RS(list); \
} else { \
_CASTASGN(list,_ls_e); \
} \
_SV(_ls_e,list); _PREVASGN(_ls_e,list,_ls_tail); _RS(list); \
_ls_tail = _ls_e; \
} \
_ls_p = _ls_q; \
} \
_CASTASGN(list->prev,_ls_tail); \
_CASTASGN(_tmp2,list); \
_SV(_ls_tail,list); _NEXTASGN(_ls_tail,list,_tmp2); _RS(list); \
if (_ls_nmerges <= 1) { \
_ls_looping=0; \
} \
_ls_insize *= 2; \
} \
} else _tmp=NULL; /* quiet gcc unused variable warning */ \
} while (0)
/******************************************************************************
* singly linked list macros (non-circular) *
*****************************************************************************/
#define LL_PREPEND(head,add) \
do { \
(add)->next = head; \
head = add; \
} while (0)
#define LL_APPEND(head,add) \
do { \
LDECLTYPE(head) _tmp; \
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(add)->next=NULL; \
if (head) { \
_tmp = head; \
while (_tmp->next) { _tmp = _tmp->next; } \
_tmp->next=(add); \
} else { \
(head)=(add); \
} \
} while (0)
#define LL_DELETE(head,del) \
do { \
LDECLTYPE(head) _tmp; \
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if ((head) == (del)) { \
(head)=(head)->next; \
} else { \
_tmp = head; \
while (_tmp->next && (_tmp->next != (del))) { \
_tmp = _tmp->next; \
} \
if (_tmp->next) { \
_tmp->next = ((del)->next); \
} \
} \
} while (0)
/* Here are VS2008 replacements for LL_APPEND and LL_DELETE */
#define LL_APPEND_VS2008(head,add) \
do { \
if (head) { \
(add)->next = head; /* use add->next as a temp variable */ \
while ((add)->next->next) { (add)->next = (add)->next->next; } \
(add)->next->next=(add); \
} else { \
(head)=(add); \
} \
(add)->next=NULL; \
} while (0)
#define LL_DELETE_VS2008(head,del) \
do { \
if ((head) == (del)) { \
(head)=(head)->next; \
} else { \
char *_tmp = (char*)(head); \
while (head->next && (head->next != (del))) { \
head = head->next; \
} \
if (head->next) { \
head->next = ((del)->next); \
} \
{ \
char **_head_alias = (char**)&(head); \
*_head_alias = _tmp; \
} \
} \
} while (0)
#ifdef NO_DECLTYPE
#undef LL_APPEND
#define LL_APPEND LL_APPEND_VS2008
#undef LL_DELETE
#define LL_DELETE LL_DELETE_VS2008
#endif
/* end VS2008 replacements */
#define LL_FOREACH(head,el) \
for(el=head;el;el=el->next)
#define LL_FOREACH_SAFE(head,el,tmp) \
for((el)=(head);(el) && (tmp = (el)->next, 1); (el) = tmp)
#define LL_SEARCH_SCALAR(head,out,field,val) \
do { \
LL_FOREACH(head,out) { \
if ((out)->field == (val)) break; \
} \
} while(0)
#define LL_SEARCH(head,out,elt,cmp) \
do { \
LL_FOREACH(head,out) { \
if ((cmp(out,elt))==0) break; \
} \
} while(0)
/******************************************************************************
* doubly linked list macros (non-circular) *
*****************************************************************************/
#define DL_PREPEND(head,add) \
do { \
(add)->next = head; \
if (head) { \
(add)->prev = (head)->prev; \
(head)->prev = (add); \
} else { \
(add)->prev = (add); \
} \
(head) = (add); \
} while (0)
#define DL_APPEND(head,add) \
do { \
if (head) { \
(add)->prev = (head)->prev; \
(head)->prev->next = (add); \
(head)->prev = (add); \
(add)->next = NULL; \
} else { \
(head)=(add); \
(head)->prev = (head); \
(head)->next = NULL; \
} \
} while (0);
#define DL_DELETE(head,del) \
do { \
if ((del)->prev == (del)) { \
(head)=NULL; \
} else if ((del)==(head)) { \
(del)->next->prev = (del)->prev; \
(head) = (del)->next; \
} else { \
(del)->prev->next = (del)->next; \
if ((del)->next) { \
(del)->next->prev = (del)->prev; \
} else { \
(head)->prev = (del)->prev; \
} \
} \
} while (0);
#define DL_FOREACH(head,el) \
for(el=head;el;el=el->next)
/* this version is safe for deleting the elements during iteration */
#define DL_FOREACH_SAFE(head,el,tmp) \
for((el)=(head);(el) && (tmp = (el)->next, 1); (el) = tmp)
/* these are identical to their singly-linked list counterparts */
#define DL_SEARCH_SCALAR LL_SEARCH_SCALAR
#define DL_SEARCH LL_SEARCH
/******************************************************************************
* circular doubly linked list macros *
*****************************************************************************/
#define CDL_PREPEND(head,add) \
do { \
if (head) { \
(add)->prev = (head)->prev; \
(add)->next = (head); \
(head)->prev = (add); \
(add)->prev->next = (add); \
} else { \
(add)->prev = (add); \
(add)->next = (add); \
} \
(head)=(add); \
} while (0)
#define CDL_DELETE(head,del) \
do { \
if ( ((head)==(del)) && ((head)->next == (head))) { \
(head) = 0L; \
} else { \
(del)->next->prev = (del)->prev; \
(del)->prev->next = (del)->next; \
if ((del) == (head)) (head)=(del)->next; \
} \
} while (0);
#define CDL_FOREACH(head,el) \
for(el=head;el;el=(el->next==head ? 0L : el->next))
#define CDL_FOREACH_SAFE(head,el,tmp1,tmp2) \
for((el)=(head), ((tmp1)=(head)?((head)->prev):NULL); \
(el) && ((tmp2)=(el)->next, 1); \
((el) = (((el)==(tmp1)) ? 0L : (tmp2))))
#define CDL_SEARCH_SCALAR(head,out,field,val) \
do { \
CDL_FOREACH(head,out) { \
if ((out)->field == (val)) break; \
} \
} while(0)
#define CDL_SEARCH(head,out,elt,cmp) \
do { \
CDL_FOREACH(head,out) { \
if ((cmp(out,elt))==0) break; \
} \
} while(0)
}//namespace cocos2d
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#endif /* __SUPPORT_DATA_SUPPORT_UTLIST_H__ */