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sglib.h
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sglib.h
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/*
This is SGLIB version 1.0.4
(C) by Marian Vittek, Bratislava, http://www.xref-tech.com/sglib, 2003-5
License Conditions: You can use a verbatim copy (including this
copyright notice) of sglib freely in any project, commercial or not.
You can also use derivative forms freely under terms of Open Source
Software license or under terms of GNU Public License. If you need
to use a derivative form in a commercial project, or you need sglib
under any other license conditions, contact the author.
*/
#ifndef _SGLIB__h_
#define _SGLIB__h_
/* the assert is used exclusively to write unexpected error messages */
#include <assert.h>
/* ---------------------------------------------------------------------------- */
/* ---------------------------------------------------------------------------- */
/* - LEVEL - 0 INTERFACE - */
/* ---------------------------------------------------------------------------- */
/* ---------------------------------------------------------------------------- */
/* ---------------------------------------------------------------------------- */
/* ------------------------------ STATIC ARRAYS ------------------------------- */
/* ---------------------------------------------------------------------------- */
/*
Basic algorithms for sorting arrays. Multiple depending arrays can
be rearranged using user defined 'elem_exchangers'
*/
/* HEAP - SORT (level 0) */
#define SGLIB_ARRAY_SINGLE_HEAP_SORT(type, a, max, comparator) {\
SGLIB_ARRAY_HEAP_SORT(type, a, max, comparator, SGLIB_ARRAY_ELEMENTS_EXCHANGER);\
}
#define SGLIB_ARRAY_HEAP_SORT(type, a, max, comparator, elem_exchanger) {\
int _k_;\
for(_k_=(max)/2; _k_>=0; _k_--) {\
SGLIB___ARRAY_HEAP_DOWN(type, a, _k_, max, comparator, elem_exchanger);\
}\
for(_k_=(max)-1; _k_>=0; _k_--) {\
elem_exchanger(type, a, 0, _k_);\
SGLIB___ARRAY_HEAP_DOWN(type, a, 0, _k_, comparator, elem_exchanger);\
}\
}
#define SGLIB___ARRAY_HEAP_DOWN(type, a, ind, max, comparator, elem_exchanger) {\
int _m_, _l_, _r_, _i_;\
_i_ = (ind);\
_m_ = _i_;\
do {\
_i_ = _m_;\
_l_ = 2*_i_+1;\
_r_ = _l_+1;\
if (_l_ < (max)){\
if (comparator(((a)[_m_]), ((a)[_l_])) < 0) _m_ = _l_;\
if (_r_ < (max)) {\
if (comparator(((a)[_m_]), ((a)[_r_])) < 0) _m_ = _r_;\
}\
}\
if (_m_ != _i_) {\
elem_exchanger(type, a, _i_, _m_);\
}\
} while (_m_ != _i_);\
}
/* QUICK - SORT (level 0) */
#define SGLIB_ARRAY_SINGLE_QUICK_SORT(type, a, max, comparator) {\
SGLIB_ARRAY_QUICK_SORT(type, a, max, comparator, SGLIB_ARRAY_ELEMENTS_EXCHANGER);\
}
#define SGLIB_ARRAY_QUICK_SORT(type, a, max, comparator, elem_exchanger) {\
int _i_, _j_, _p_, _stacki_, _start_, _end_;\
/* can sort up to 2^64 elements */\
int _startStack_[64];\
int _endStack_[64];\
_startStack_[0] = 0;\
_endStack_[0] = (max);\
_stacki_ = 1;\
while (_stacki_ > 0) {\
_stacki_ --;\
_start_ = _startStack_[_stacki_];\
_end_ = _endStack_[_stacki_];\
while (_end_ - _start_ > 2) {\
_p_ = _start_;\
_i_ = _start_ + 1;\
_j_ = _end_ - 1;\
while (_i_<_j_) {\
for(; _i_<=_j_ && comparator(((a)[_i_]),((a)[_p_]))<=0; _i_++) ;\
if (_i_ > _j_) {\
/* all remaining elements lesseq than pivot */\
elem_exchanger(type, a, _j_, _p_);\
_i_ = _j_;\
} else {\
for(; _i_<=_j_ && comparator(((a)[_j_]),((a)[_p_]))>=0; _j_--) ;\
if (_i_ > _j_) {\
/* all remaining elements greater than pivot */\
elem_exchanger(type, a, _j_, _p_);\
_i_ = _j_;\
} else if (_i_ < _j_) {\
elem_exchanger(type, a, _i_, _j_);\
if (_i_+2 < _j_) {_i_++; _j_--;}\
else if (_i_+1 < _j_) _i_++;\
}\
}\
}\
/* O.K. i==j and pivot is on a[i] == a[j] */\
/* handle recursive calls without recursion */\
if (_i_-_start_ > 1 && _end_-_j_ > 1) {\
/* two recursive calls, use array-stack */\
if (_i_-_start_ < _end_-_j_-1) {\
_startStack_[_stacki_] = _j_+1;\
_endStack_[_stacki_] = _end_;\
_stacki_ ++;\
_end_ = _i_;\
} else {\
_startStack_[_stacki_] = _start_;\
_endStack_[_stacki_] = _i_;\
_stacki_ ++;\
_start_ = _j_+1;\
}\
} else {\
if (_i_-_start_ > 1) {\
_end_ = _i_;\
} else {\
_start_ = _j_+1;\
}\
}\
}\
if (_end_ - _start_ == 2) {\
if (comparator(((a)[_start_]),((a)[_end_-1])) > 0) {\
elem_exchanger(type, a, _start_, _end_-1);\
}\
}\
}\
}
/* BINARY SEARCH (level 0) */
#define SGLIB_ARRAY_BINARY_SEARCH(type, a, start_index, end_index, key, comparator, found, result_index) {\
int _kk_, _cc_, _ii_, _jj_, _ff_;\
_ii_ = (start_index);\
_jj_ = (end_index);\
_ff_ = 0;\
while (_ii_ <= _jj_ && _ff_==0) {\
_kk_ = (_jj_+_ii_)/2;\
_cc_ = comparator(((a)[_kk_]), (key));\
if (_cc_ == 0) {\
(result_index) = _kk_;\
_ff_ = 1;\
} else if (_cc_ < 0) {\
_ii_ = _kk_+1;\
} else {\
_jj_ = _kk_-1;\
}\
}\
if (_ff_ == 0) {\
/* not found, but set its resulting place in the array */\
(result_index) = _jj_+1;\
}\
(found) = _ff_;\
}
/* -------------------------------- queue (in an array) ------------------ */
/* queue is a quadruple (a,i,j,dim) such that: */
/* a is the array storing values */
/* i is the index of the first used element in the array */
/* j is the index of the first free element in the array */
/* dim is the size of the array a */
/* !!!!!!! This data structure is NOT documented, do not use it !!!!!!!!!! */
#define SGLIB_QUEUE_INIT(type, a, i, j) { i = j = 0; }
#define SGLIB_QUEUE_IS_EMPTY(type, a, i, j) ((i)==(j))
#define SGLIB_QUEUE_IS_FULL(type, a, i, j, dim) ((i)==((j)+1)%(dim))
#define SGLIB_QUEUE_FIRST_ELEMENT(type, a, i, j) (a[i])
#define SGLIB_QUEUE_ADD_NEXT(type, a, i, j, dim) {\
if (SGLIB_QUEUE_IS_FULL(type, a, i, j, dim)) assert(0 && "the queue is full");\
(j) = ((j)+1) % (dim);\
}
#define SGLIB_QUEUE_ADD(type, a, elem, i, j, dim) {\
a[j] = (elem);\
SGLIB_QUEUE_ADD_NEXT(type, a, i, j, dim);\
}
#define SGLIB_QUEUE_DELETE_FIRST(type, a, i, j, dim) {\
if (SGLIB_QUEUE_IS_EMPTY(type, a, i, j)) assert(0 && "the queue is empty");\
(i) = ((i)+1) % (dim);\
}
#define SGLIB_QUEUE_DELETE(type, a, i, j, dim) {\
SGLIB_QUEUE_DELETE_FIRST(type, a, i, j, dim);\
}
/* ----------------- priority queue (heap) (in an array) -------------------- */
/* heap is a triple (a,i,dim) such that: */
/* a is the array storing values */
/* i is the index of the first free element in the array */
/* dim is the size of the array a */
/* !!!!!!! This data structure is NOT documented, do not use it !!!!!!!!!! */
#define SGLIB_HEAP_INIT(type, a, i) { i = 0; }
#define SGLIB_HEAP_IS_EMPTY(type, a, i) ((i)==0)
#define SGLIB_HEAP_IS_FULL(type, a, i, dim) ((i)==(dim))
#define SGLIB_HEAP_FIRST_ELEMENT(type, a, i) (a[0])
#define SGLIB_HEAP_ADD_NEXT(type, a, i, dim, comparator, elem_exchanger) {\
int _i_;\
if (SGLIB_HEAP_IS_FULL(type, a, i, dim)) assert(0 && "the heap is full");\
_i_ = (i)++;\
while (_i_ > 0 && comparator(a[_i_/2], a[_i_]) < 0) {\
elem_exchanger(type, a, (_i_/2), _i_);\
_i_ = _i_/2;\
}\
}
#define SGLIB_HEAP_ADD(type, a, elem, i, dim, comparator) {\
if (SGLIB_HEAP_IS_FULL(type, a, i, dim)) assert(0 && "the heap is full");\
a[i] = (elem);\
SGLIB_HEAP_ADD_NEXT(type, a, i, dim, comparator, SGLIB_ARRAY_ELEMENTS_EXCHANGER);\
}
#define SGLIB_HEAP_DELETE_FIRST(type, a, i, dim, comparator, elem_exchanger) {\
if (SGLIB_HEAP_IS_EMPTY(type, a, i)) assert(0 && "the heap is empty");\
(i)--;\
a[0] = a[i];\
SGLIB___ARRAY_HEAP_DOWN(type, a, 0, i, comparator, elem_exchanger);\
}
#define SGLIB_HEAP_DELETE(type, a, i, dim, comparator) {\
SGLIB_HEAP_DELETE_FIRST(type, a, i, dim, comparator, SGLIB_ARRAY_ELEMENTS_EXCHANGER);\
}
/* ----------------- hashed table of pointers (in an array) -------------------- */
/*
This hashed table is storing pointers to objects (not containers).
In this table there is a one-to-one mapping between 'objects' stored
in the table and indexes where they are placed. Each index is
pointing to exactly one 'object' and each 'object' stored in the
table occurs on exactly one index. Once an object is stored in the
table, it can be represented via its index.
In case of collision while adding an object the index shifted
by SGLIB_HASH_TAB_SHIFT_CONSTANT (constant can be redefined)
You can NOT delete an element from such hash table. The only
justification (I can see) for this data structure is an exchange
file format, having an index table at the beginning and then
refering objects via indexes.
!!!!!!! This data structure is NOT documented, do not use it !!!!!!!!!!
*/
#define SGLIB_HASH_TAB_INIT(type, table, dim) {\
int _i_;\
for(_i_ = 0; _i_ < (dim); _i_++) (table)[_i_] = NULL;\
}
#define SGLIB_HASH_TAB_ADD_IF_NOT_MEMBER(type, table, dim, elem, hash_function, comparator, member){\
unsigned _pos_;\
type *_elem_;\
SGLIB_HASH_TAB_FIND_MEMBER(type, table, dim, elem, _pos_, _elem_);\
(member) = (table)[_pos_];\
if (_elem_ == NULL) {\
if ((table)[_pos_] != NULL) assert(0 && "the hash table is full");\
(table)[_pos_] = (elem);\
}\
}
#define SGLIB_HASH_TAB_FIND_MEMBER(type, table, dim, elem, hash_function, comparator, resultIndex, resultMember) {\
unsigned _i_;\
int _count_;\
type *_e_;\
_count = 0;\
_i_ = hash_function(elem);\
_i_ %= (dim);\
while ((_e_=(table)[_i_])!=NULL && comparator(_e_, (elem))!=0 && _count_<(dim)) {\
_count_ ++;\
_i_ = (_i_ + SGLIB_HASH_TAB_SHIFT_CONSTANT) % (dim);\
}\
(resultIndex) = _i_;\
if (_count_ < (dim)) (resultMember) = _e_;\
else (resultMember) = NULL;\
}
#define SGLIB_HASH_TAB_IS_MEMBER(type, table, dim, elem, hash_function, resultIndex) {\
unsigned _i_;\
int _c_;\
type *_e_;\
_count = 0;\
_i_ = hash_function(elem);\
_i_ %= (dim);\
while ((_e_=(table)[_i_])!=NULL && _e_!=(elem) && _c_<(dim)) {\
_c_ ++;\
_i_ = (_i_ + SGLIB_HASH_TAB_SHIFT_CONSTANT) % (dim);\
}\
if (_e_==(elem)) (resultIndex) = _i_;\
else (resultIndex) = -1;\
}
#define SGLIB_HASH_TAB_MAP_ON_ELEMENTS(type, table, dim, iteratedIndex, iteratedVariable, command) {\
unsigned iteratedIndex;\
type *iteratedVariable;\
for(iteratedIndex=0; iteratedIndex < (dim); iteratedIndex++) {\
iteratedVariable = (table)[iteratedIndex];\
if (iteratedVariable != NULL) {command;}\
}\
}
/* ---------------------------------------------------------------------------- */
/* ------------------------- DYNAMIC DATA STRUCTURES -------------------------- */
/* ---------------------------------------------------------------------------- */
/* ------------------------------------ lists (level 0) --------------------- */
#define SGLIB_LIST_ADD(type, list, elem, next) {\
(elem)->next = (list);\
(list) = (elem);\
}
#define SGLIB_LIST_CONCAT(type, first, second, next) {\
if ((first)==NULL) {\
(first) = (second);\
} else {\
type *_p_;\
for(_p_ = (first); _p_->next!=NULL; _p_=_p_->next) ;\
_p_->next = (second);\
}\
}
#define SGLIB_LIST_DELETE(type, list, elem, next) {\
type **_p_;\
for(_p_ = &(list); *_p_!=NULL && *_p_!=(elem); _p_= &(*_p_)->next) ;\
assert(*_p_!=NULL && "element is not member of the container, use DELETE_IF_MEMBER instead"!=NULL);\
*_p_ = (*_p_)->next;\
}
#define SGLIB_LIST_ADD_IF_NOT_MEMBER(type, list, elem, comparator, next, member) {\
type *_p_;\
for(_p_ = (list); _p_!=NULL && comparator(_p_, (elem)) != 0; _p_= _p_->next) ;\
(member) = _p_;\
if (_p_ == NULL) {\
SGLIB_LIST_ADD(type, list, elem, next);\
}\
}
#define SGLIB_LIST_DELETE_IF_MEMBER(type, list, elem, comparator, next, member) {\
type **_p_;\
for(_p_ = &(list); *_p_!=NULL && comparator((*_p_), (elem)) != 0; _p_= &(*_p_)->next) ;\
(member) = *_p_;\
if (*_p_ != NULL) {\
*_p_ = (*_p_)->next;\
}\
}
#define SGLIB_LIST_IS_MEMBER(type, list, elem, next, result) {\
type *_p_;\
for(_p_ = (list); _p_!=NULL && _p_ != (elem); _p_= _p_->next) ;\
(result) = (_p_!=NULL);\
}
#define SGLIB_LIST_FIND_MEMBER(type, list, elem, comparator, next, member) {\
type *_p_;\
for(_p_ = (list); _p_!=NULL && comparator(_p_, (elem)) != 0; _p_= _p_->next) ;\
(member) = _p_;\
}
#define SGLIB_LIST_MAP_ON_ELEMENTS(type, list, iteratedVariable, next, command) {\
type *_ne_;\
type *iteratedVariable;\
(iteratedVariable) = (list);\
while ((iteratedVariable)!=NULL) {\
_ne_ = (iteratedVariable)->next;\
{command;};\
(iteratedVariable) = _ne_;\
}\
}
#define SGLIB_LIST_LEN(type, list, next, result) {\
type *_ce_;\
(void)(_ce_);\
(result) = 0;\
SGLIB_LIST_MAP_ON_ELEMENTS(type, list, _ce_, next, (result)++);\
}
#define SGLIB_LIST_REVERSE(type, list, next) {\
type *_list_,*_tmp_,*_res_;\
_list_ = (list);\
_res_ = NULL;\
while (_list_!=NULL) {\
_tmp_ = _list_->next; _list_->next = _res_;\
_res_ = _list_; _list_ = _tmp_;\
}\
(list) = _res_;\
}
#define SGLIB_LIST_SORT(type, list, comparator, next) {\
/* a non-recursive merge sort on lists */\
type *_r_;\
type *_a_, *_b_, *_todo_, *_t_, **_restail_;\
int _i_, _n_, _contFlag_;\
_r_ = (list);\
_contFlag_ = 1;\
for(_n_ = 1; _contFlag_; _n_ = _n_+_n_) {\
_todo_ = _r_; _r_ = NULL; _restail_ = &_r_; _contFlag_ =0;\
while (_todo_!=NULL) {\
_a_ = _todo_;\
for(_i_ = 1, _t_ = _a_; _i_ < _n_ && _t_!=NULL; _i_++, _t_ = _t_->next) ;\
if (_t_ ==NULL) {\
*_restail_ = _a_;\
break;\
}\
_b_ = _t_->next; _t_->next=NULL;\
for(_i_ =1, _t_ = _b_; _i_<_n_ && _t_!=NULL; _i_++, _t_ = _t_->next) ;\
if (_t_ ==NULL) {\
_todo_ =NULL;\
} else {\
_todo_ = _t_->next; _t_->next=NULL;\
}\
/* merge */\
while (_a_!=NULL && _b_!=NULL) {\
if (comparator(_a_, _b_) < 0) {\
*_restail_ = _a_; _restail_ = &(_a_->next); _a_ = _a_->next;\
} else {\
*_restail_ = _b_; _restail_ = &(_b_->next); _b_ = _b_->next;\
}\
}\
if (_a_!=NULL) *_restail_ = _a_;\
else *_restail_ = _b_;\
while (*_restail_!=NULL) _restail_ = &((*_restail_)->next);\
_contFlag_ =1;\
}\
}\
(list) = _r_;\
}
/* --------------------------------- sorted list (level 0) --------------------- */
/*
All operations suppose that the list is sorted and they preserve
this property.
*/
#define SGLIB_SORTED_LIST_ADD(type, list, elem, comparator, next) {\
type **_e_;\
int _cmpres_;\
SGLIB_SORTED_LIST_FIND_MEMBER_OR_PLACE(type, list, elem, comparator, next, _cmpres_, _e_);\
(elem)->next = *_e_;\
*_e_ = (elem);\
}
#define SGLIB_SORTED_LIST_ADD_IF_NOT_MEMBER(type, list, elem, comparator, next, member) {\
type **_e_;\
int _cmp_res_;\
SGLIB_SORTED_LIST_FIND_MEMBER_OR_PLACE(type, list, elem, comparator, next, _cmp_res_, _e_);\
if (_cmp_res_ != 0) {\
(elem)->next = *_e_;\
*_e_ = (elem);\
(member) = NULL;\
} else {\
(member) = *_e_;\
}\
}
#define SGLIB_SORTED_LIST_DELETE(type, list, elem, next) {\
SGLIB_LIST_DELETE(type, list, elem, next);\
}
#define SGLIB_SORTED_LIST_DELETE_IF_MEMBER(type, list, elem, comparator, next, member) {\
type **_e_;\
int _cmp_res_;\
SGLIB_SORTED_LIST_FIND_MEMBER_OR_PLACE(type, list, elem, comparator, next, _cmp_res_, _e_);\
if (_cmp_res_ == 0) {\
(member) = *_e_;\
*_e_ = (*_e_)->next;\
} else {\
(member) = NULL;\
}\
}
#define SGLIB_SORTED_LIST_FIND_MEMBER(type, list, elem, comparator, next, member) {\
type *_p_;\
int _cmpres_ = 1;\
for(_p_ = (list); _p_!=NULL && (_cmpres_=comparator(_p_, (elem))) < 0; _p_=_p_->next) ;\
if (_cmpres_ != 0) (member) = NULL;\
else (member) = _p_;\
}
#define SGLIB_SORTED_LIST_IS_MEMBER(type, list, elem, comparator, next, result) {\
type *_p_;\
for(_p_ = (list); _p_!=NULL && comparator(_p_, (elem)) < 0; _p_=_p_->next) ;\
while (_p_ != NULL && _p_ != (elem) && comparator(_p_, (elem)) == 0) _p_=_p_->next;\
(result) = (_p_ == (elem));\
}
#define SGLIB_SORTED_LIST_FIND_MEMBER_OR_PLACE(type, list, elem, comparator, next, comparator_result, member_ptr) {\
(comparator_result) = -1;\
for((member_ptr) = &(list);\
*(member_ptr)!=NULL && ((comparator_result)=comparator((*member_ptr), (elem))) < 0;\
(member_ptr) = &(*(member_ptr))->next) ;\
}
#define SGLIB_SORTED_LIST_LEN(type, list, next, result) {\
SGLIB_LIST_LEN(type, list, next, result);\
}
#define SGLIB_SORTED_LIST_MAP_ON_ELEMENTS(type, list, iteratedVariable, next, command) {\
SGLIB_LIST_MAP_ON_ELEMENTS(type, list, iteratedVariable, next, command);\
}
/* ------------------------------- double linked list (level 0) ------------------------- */
/*
Lists with back pointer to previous element. Those lists implements deletion
of an element in a constant time.
*/
#define SGLIB___DL_LIST_CREATE_SINGLETON(type, list, elem, previous, next) {\
(list) = (elem);\
(list)->next = (list)->previous = NULL;\
}
#define SGLIB_DL_LIST_ADD_AFTER(type, place, elem, previous, next) {\
if ((place) == NULL) {\
SGLIB___DL_LIST_CREATE_SINGLETON(type, place, elem, previous, next);\
} else {\
(elem)->next = (place)->next;\
(elem)->previous = (place);\
(place)->next = (elem);\
if ((elem)->next != NULL) (elem)->next->previous = (elem);\
}\
}
#define SGLIB_DL_LIST_ADD_BEFORE(type, place, elem, previous, next) {\
if ((place) == NULL) {\
SGLIB___DL_LIST_CREATE_SINGLETON(type, place, elem, previous, next);\
} else {\
(elem)->next = (place);\
(elem)->previous = (place)->previous;\
(place)->previous = (elem);\
if ((elem)->previous != NULL) (elem)->previous->next = (elem);\
}\
}
#define SGLIB_DL_LIST_ADD(type, list, elem, previous, next) {\
SGLIB_DL_LIST_ADD_BEFORE(type, list, elem, previous, next)\
(list) = (elem);\
}
#define SGLIB___DL_LIST_GENERIC_ADD_IF_NOT_MEMBER(type, list, elem, comparator, previous, next, member, the_add_operation) {\
type *_dlp_;\
for(_dlp_ = (list); _dlp_!=NULL && comparator(_dlp_, (elem)) != 0; _dlp_= _dlp_->previous) ;\
if (_dlp_ == NULL && (list) != NULL) {\
for(_dlp_ = (list)->next; _dlp_!=NULL && comparator(_dlp_, (elem)) != 0; _dlp_= _dlp_->next) ;\
}\
(member) = _dlp_;\
if (_dlp_ == NULL) {\
the_add_operation(type, list, elem, previous, next);\
}\
}
#define SGLIB_DL_LIST_ADD_BEFORE_IF_NOT_MEMBER(type, list, elem, comparator, previous, next, member) {\
SGLIB___DL_LIST_GENERIC_ADD_IF_NOT_MEMBER(type, list, elem, comparator, previous, next, member, SGLIB_DL_LIST_ADD_BEFORE);\
}
#define SGLIB_DL_LIST_ADD_AFTER_IF_NOT_MEMBER(type, list, elem, comparator, previous, next, member) {\
SGLIB___DL_LIST_GENERIC_ADD_IF_NOT_MEMBER(type, list, elem, comparator, previous, next, member, SGLIB_DL_LIST_ADD_AFTER);\
}
#define SGLIB_DL_LIST_ADD_IF_NOT_MEMBER(type, list, elem, comparator, previous, next, member) {\
SGLIB___DL_LIST_GENERIC_ADD_IF_NOT_MEMBER(type, list, elem, comparator, previous, next, member, SGLIB_DL_LIST_ADD);\
}
#define SGLIB_DL_LIST_CONCAT(type, first, second, previous, next) {\
if ((first)==NULL) {\
(first) = (second);\
} else if ((second)!=NULL) {\
type *_dlp_;\
for(_dlp_ = (first); _dlp_->next!=NULL; _dlp_=_dlp_->next) { };\
SGLIB_DL_LIST_ADD_AFTER(type, _dlp_, second, previous, next);\
}\
}
#define SGLIB_DL_LIST_DELETE(type, list, elem, previous, next) {\
type *_l_;\
_l_ = (list);\
if (_l_ == (elem)) {\
if ((elem)->previous != NULL) _l_ = (elem)->previous;\
else _l_ = (elem)->next;\
}\
if ((elem)->next != NULL) (elem)->next->previous = (elem)->previous;\
if ((elem)->previous != NULL) (elem)->previous->next = (elem)->next;\
(list) = _l_;\
}
#define SGLIB_DL_LIST_DELETE_IF_MEMBER(type, list, elem, comparator, previous, next, member) {\
type *_dlp_;\
for(_dlp_ = (list); _dlp_!=NULL && comparator(_dlp_, (elem)) != 0; _dlp_= _dlp_->previous) ;\
if (_dlp_ == NULL && (list) != NULL) {\
for(_dlp_ = (list)->next; _dlp_!=NULL && comparator(_dlp_, (elem)) != 0; _dlp_= _dlp_->next) ;\
}\
(member) = _dlp_;\
if (_dlp_ != NULL) {\
SGLIB_DL_LIST_DELETE(type, list, _dlp_, previous, next);\
}\
}
#define SGLIB_DL_LIST_IS_MEMBER(type, list, elem, previous, next, result) {\
type *_dlp_;\
SGLIB_LIST_IS_MEMBER(type, list, elem, previous, result);\
if (result == 0 && (list) != NULL) {\
_dlp_ = (list)->next;\
SGLIB_LIST_IS_MEMBER(type, _dlp_, elem, next, result);\
}\
}
#define SGLIB_DL_LIST_FIND_MEMBER(type, list, elem, comparator, previous, next, member) {\
type *_dlp_;\
SGLIB_LIST_FIND_MEMBER(type, list, elem, comparator, previous, member);\
if ((member) == NULL && (list) != NULL) {\
_dlp_ = (list)->next;\
SGLIB_LIST_FIND_MEMBER(type, _dlp_, elem, comparator, next, member);\
}\
}
#define SGLIB_DL_LIST_MAP_ON_ELEMENTS(type, list, iteratedVariable, previous, next, command) {\
type *_dl_;\
type *iteratedVariable;\
(void)(iteratedVariable);\
if ((list)!=NULL) {\
_dl_ = (list)->next;\
SGLIB_LIST_MAP_ON_ELEMENTS(type, list, iteratedVariable, previous, command);\
SGLIB_LIST_MAP_ON_ELEMENTS(type, _dl_, iteratedVariable, next, command);\
}\
}
#define SGLIB_DL_LIST_SORT(type, list, comparator, previous, next) {\
type *_dll_;\
_dll_ = (list);\
if (_dll_ != NULL) {\
for(; _dll_->previous!=NULL; _dll_=_dll_->previous) { };\
SGLIB_LIST_SORT(type, _dll_, comparator, next);\
SGLIB___DL_LIST_CREATE_FROM_LIST(type, _dll_, previous, next);\
(list) = _dll_;\
}\
}
#define SGLIB_DL_LIST_GET_FIRST(type, list, previous, next, result) {\
type *_dll_;\
_dll_ = (list);\
if (_dll_ != NULL) {\
for(; _dll_->previous!=NULL; _dll_=_dll_->previous) ;\
}\
(result) = _dll_;\
}
#define SGLIB_DL_LIST_GET_LAST(type, list, previous, next, result) {\
type *_dll_;\
_dll_ = (list);\
if (_dll_ != NULL) {\
for(; _dll_->next!=NULL; _dll_=_dll_->next) ;\
}\
(result) = _dll_;\
}
#define SGLIB_DL_LIST_LEN(type, list, previous, next, result) {\
type *_dl_;\
int _r1_, _r2_;\
if ((list)==NULL) {\
(result) = 0;\
} else {\
SGLIB_LIST_LEN(type, list, previous, _r1_);\
_dl_ = (list)->next;\
SGLIB_LIST_LEN(type, _dl_, next, _r2_);\
(result) = _r1_ + _r2_;\
}\
}
#define SGLIB_DL_LIST_REVERSE(type, list, previous, next) {\
type *_list_,*_nlist_,*_dlp_,*_dln_;\
_list_ = (list);\
if (_list_!=NULL) {\
_nlist_ = _list_->next;\
while (_list_!=NULL) {\
_dln_ = _list_->next;\
_dlp_ = _list_->previous;\
_list_->next = _dlp_;\
_list_->previous = _dln_;\
_list_ = _dlp_;\
}\
while (_nlist_!=NULL) {\
_dln_ = _nlist_->next;\
_dlp_ = _nlist_->previous;\
_nlist_->next = _dlp_;\
_nlist_->previous = _dln_;\
_nlist_ = _dln_;\
}\
}\
}
#define SGLIB___DL_LIST_CREATE_FROM_LIST(type, list, previous, next) {\
type *_dlp_, *_dlt_;\
_dlp_ = NULL;\
for(_dlt_ = (list); _dlt_!=NULL; _dlt_ = _dlt_->next) {\
_dlt_->previous = _dlp_;\
_dlp_ = _dlt_;\
}\
}
/* ------------------------------- binary tree traversal (level 0) -------------------- */
#define SGLIB___BIN_TREE_MAP_ON_ELEMENTS(type, tree, iteratedVariable, order, left, right, command) {\
/* this is non-recursive implementation of tree traversal */\
/* it maintains the path to the current node in the array '_path_' */\
/* the _path_[0] contains the root of the tree; */\
/* the _path_[_pathi_] contains the _current_element_ */\
/* the macro does not use the _current_element_ after execution of command */\
/* command can destroy it, it can free the element for example */\
type *_path_[SGLIB_MAX_TREE_DEEP];\
type *_right_[SGLIB_MAX_TREE_DEEP];\
char _pass_[SGLIB_MAX_TREE_DEEP];\
type *_cn_;\
int _pathi_;\
type *iteratedVariable;\
(void)(iteratedVariable);\
_cn_ = (tree);\
_pathi_ = 0;\
while (_cn_!=NULL) {\
/* push down to leftmost innermost element */\
while(_cn_!=NULL) {\
_path_[_pathi_] = _cn_;\
_right_[_pathi_] = _cn_->right;\
_pass_[_pathi_] = 0;\
_cn_ = _cn_->left;\
if (order == 0) {\
iteratedVariable = _path_[_pathi_];\
{command;}\
}\
_pathi_ ++;\
if (_pathi_ >= SGLIB_MAX_TREE_DEEP) assert(0 && "the binary_tree is too deep");\
}\
do {\
_pathi_ --;\
if ((order==1 && _pass_[_pathi_] == 0)\
|| (order == 2 && (_pass_[_pathi_] == 1 || _right_[_pathi_]==NULL))) {\
iteratedVariable = _path_[_pathi_];\
{command;}\
}\
_pass_[_pathi_] ++;\
} while (_pathi_>0 && _right_[_pathi_]==NULL) ;\
_cn_ = _right_[_pathi_];\
_right_[_pathi_] = NULL;\
_pathi_ ++;\
}\
}
#define SGLIB_BIN_TREE_MAP_ON_ELEMENTS(type, tree, _current_element_, left, right, command) {\
SGLIB___BIN_TREE_MAP_ON_ELEMENTS(type, tree, _current_element_, 1, left, right, command);\
}
#define SGLIB_BIN_TREE_MAP_ON_ELEMENTS_PREORDER(type, tree, _current_element_, left, right, command) {\
SGLIB___BIN_TREE_MAP_ON_ELEMENTS(type, tree, _current_element_, 0, left, right, command);\
}
#define SGLIB_BIN_TREE_MAP_ON_ELEMENTS_POSTORDER(type, tree, _current_element_, left, right, command) {\
SGLIB___BIN_TREE_MAP_ON_ELEMENTS(type, tree, _current_element_, 2, left, right, command);\
}
#define SGLIB___BIN_TREE_FIND_MEMBER(type, tree, elem, left, right, comparator, res) {\
type *_s_;\
int _c_;\
_s_ = (tree);\
while (_s_!=NULL) {\
_c_ = comparator((elem), _s_);\
if (_c_ < 0) _s_ = _s_->left;\
else if (_c_ > 0) _s_ = _s_->right;\
else break;\
}\
(res) = _s_;\
}
/* ---------------------------------------------------------------------------- */
/* ---------------------------------------------------------------------------- */
/* - LEVEL - 1 INTERFACE - */
/* ---------------------------------------------------------------------------- */
/* ---------------------------------------------------------------------------- */
/* ---------------------------------------------------------------------------- */
/* ------------------------------ STATIC ARRAYS ------------------------------- */
/* ---------------------------------------------------------------------------- */
/* ----------------------------- array sorting (level 1) ---------------------- */
#define SGLIB_DEFINE_ARRAY_SORTING_PROTOTYPES(type, comparator) \
extern void sglib_##type##_array_quick_sort(type *a, int max);\
extern void sglib_##type##_array_heap_sort(type *a, int max);\
#define SGLIB_DEFINE_ARRAY_SORTING_FUNCTIONS(type, comparator) \
void sglib_##type##_array_quick_sort(type *a, int max) {\
SGLIB_ARRAY_SINGLE_QUICK_SORT(type, a, max, comparator);\
}\
void sglib_##type##_array_heap_sort(type *a, int max) {\
SGLIB_ARRAY_SINGLE_HEAP_SORT(type, a, max, comparator);\
}\
/* ----------------------------- array queue (level 1) ------------------- */
/* sglib's queue is stored in a fixed sized array */
/* queue_type MUST be a structure containing fields: */
/* afield is the array storing elem_type */
/* ifield is the index of the first element in the queue */
/* jfield is the index of the first free element after the queue */
/* dim is the size of the array afield */
/* !!!!!!! This data structure is NOT documented, do not use it !!!!!!!!!! */
#define SGLIB_DEFINE_QUEUE_PROTOTYPES(queue_type, elem_type, afield, ifield, jfield, dim) \
extern void sglib_##queue_type##_init(queue_type *q);\
extern int sglib_##queue_type##_is_empty(queue_type *q);\
extern int sglib_##queue_type##_is_full(queue_type *q);\
extern elem_type sglib_##queue_type##_first_element(queue_type *q);\
extern elem_type *sglib_##queue_type##_first_element_ptr(queue_type *q);\
extern void sglib_##queue_type##_add_next(queue_type *q);\
extern void sglib_##queue_type##_add(queue_type *q, elem_type elem);\
extern void sglib_##queue_type##_delete_first(queue_type *q);\
extern void sglib_##queue_type##_delete(queue_type *q);
#define SGLIB_DEFINE_QUEUE_FUNCTIONS(queue_type, elem_type, afield, ifield, jfield, dim) \
void sglib_##queue_type##_init(queue_type *q) {\
SGLIB_QUEUE_INIT(elem_type, q->afield, q->ifield, q->jfield);\
}\
int sglib_##queue_type##_is_empty(queue_type *q) {\
return(SGLIB_QUEUE_IS_EMPTY(elem_type, q->afield, q->ifield, q->jfield));\
}\
int sglib_##queue_type##_is_full(queue_type *q) {\
return(SGLIB_QUEUE_IS_FULL(elem_type, q->afield, q->ifield, q->jfield));\
}\
elem_type sglib_##queue_type##_first_element(queue_type *q) {\
return(SGLIB_QUEUE_FIRST_ELEMENT(elem_type, q->afield, q->ifield, q->jfield));\
}\
elem_type *sglib_##queue_type##_first_element_ptr(queue_type *q) {\
return(& SGLIB_QUEUE_FIRST_ELEMENT(elem_type, q->afield, q->ifield, q->jfield));\
}\
void sglib_##queue_type##_add_next(queue_type *q) {\
SGLIB_QUEUE_ADD_NEXT(elem_type, q->afield, q->ifield, q->jfield, dim);\
}\
void sglib_##queue_type##_add(queue_type *q, elem_type elem) {\
SGLIB_QUEUE_ADD(elem_type, q->afield, elem, q->ifield, q->jfield, dim);\
}\
void sglib_##queue_type##_delete_first(queue_type *q) {\
SGLIB_QUEUE_DELETE_FIRST(elem_type, q->afield, q->ifield, q->jfield, dim);\
}\
void sglib_##queue_type##_delete(queue_type *q) {\
SGLIB_QUEUE_DELETE_FIRST(elem_type, q->afield, q->ifield, q->jfield, dim);\
}
/* ------------------------ array heap (level 1) ------------------------- */
/* sglib's heap is a priority queue implemented in a fixed sized array */
/* heap_type MUST be a structure containing fields: */
/* afield is the array of size dim storing elem_type */
/* ifield is the index of the first free element after the queue */
/* !!!!!!! This data structure is NOT documented, do not use it !!!!!!!!!! */
#define SGLIB_DEFINE_HEAP_PROTOTYPES(heap_type, elem_type, afield, ifield, dim, comparator, elem_exchanger) \
extern void sglib_##heap_type##_init(heap_type *q);\
extern int sglib_##heap_type##_is_empty(heap_type *q);\
extern int sglib_##heap_type##_is_full(heap_type *q);\
extern elem_type sglib_##heap_type##_first_element(heap_type *q);\
extern elem_type *sglib_##heap_type##_first_element_ptr(heap_type *q);\
extern void sglib_##heap_type##_add_next(heap_type *q);\
extern void sglib_##heap_type##_add(heap_type *q, elem_type elem);\
extern void sglib_##heap_type##_delete_first(heap_type *q);\
extern void sglib_##heap_type##_delete(heap_type *q)
#define SGLIB_DEFINE_HEAP_FUNCTIONS(heap_type, elem_type, afield, ifield, dim, comparator, elem_exchanger) \
void sglib_##heap_type##_init(heap_type *q) {\
SGLIB_HEAP_INIT(elem_type, q->afield, q->ifield);\
}\
int sglib_##heap_type##_is_empty(heap_type *q) {\
return(SGLIB_HEAP_IS_EMPTY(elem_type, q->afield, q->ifield));\
}\
int sglib_##heap_type##_is_full(heap_type *q) {\
return(SGLIB_HEAP_IS_FULL(elem_type, q->afield, q->ifield));\
}\
elem_type sglib_##heap_type##_first_element(heap_type *q) {\
return(SGLIB_HEAP_FIRST_ELEMENT(elem_type, q->afield, q->ifield));\
}\
elem_type *sglib_##heap_type##_first_element_ptr(heap_type *q) {\
return(& SGLIB_HEAP_FIRST_ELEMENT(elem_type, q->afield, q->ifield));\
}\
void sglib_##heap_type##_add_next(heap_type *q) {\
SGLIB_HEAP_ADD_NEXT(elem_type, q->afield, q->ifield, dim, comparator, elem_exchanger);\
}\
void sglib_##heap_type##_add(heap_type *q, elem_type elem) {\
SGLIB_HEAP_ADD(elem_type, q->afield, elem, q->ifield, dim, comparator, elem_exchanger);\
}\
void sglib_##heap_type##_delete_first(heap_type *q) {\
SGLIB_HEAP_DELETE_FIRST(elem_type, q->afield, q->ifield, dim, comparator, elem_exchanger);\
}\
void sglib_##heap_type##_delete(heap_type *q) {\
SGLIB_HEAP_DELETE_FIRST(elem_type, q->afield, q->ifield, dim, comparator, elem_exchanger);\
}
/* ------------------------ hashed table (level 1) ------------------------- */
/*
sglib's hash table is an array storing directly pointers to objects (not containers).
In this table there is a one-to-one mapping between 'objects' stored
in the table and indexes where they are placed. Each index is
pointing to exactly one 'object' and each 'object' stored in the
table occurs on exactly one index. Once an object is stored in the
table, it can be represented via its index.
type - is the type of elements
dim - is the size of the hash array
hash_function - is a hashing function mapping type* to unsigned
comparator - is a comparator on elements
!!!!!!! This data structure is NOT documented, do not use it !!!!!!!!!!
*/
#define SGLIB_DEFINE_HASHED_TABLE_PROTOTYPES(type, dim, hash_function, comparator) \
struct sglib_hashed_##type##_iterator {\
int currentIndex;\
int (*subcomparator)(type *, type *);\
type *equalto;\
};\
extern void sglib_hashed_##type##_init(type *table[dim]);\
extern int sglib_hashed_##type##_add_if_not_member(type *table[dim], type *elem, type **member);\
extern int sglib_hashed_##type##_is_member(type *table[dim], type *elem);\
extern type * sglib_hashed_##type##_find_member(type *table[dim], type *elem);\
extern type *sglib_hashed_##type##_it_init(struct sglib_hashed_##type##_iterator *it, type *table[dim]);\
extern type *sglib_hashed_##type##_it_init_on_equal(struct sglib_hashed_##type##_iterator *it, type *table[dim], int (*subcomparator)(type *, type *), type *equalto);\
extern type *sglib_hashed_##type##_it_current(struct sglib_hashed_##type##_iterator *it);\
extern type *sglib_hashed_##type##_it_next(struct sglib_hashed_##type##_iterator *it);
#define SGLIB_DEFINE_HASHED_TABLE_FUNCTIONS(type, dim, hash_function, comparator) \
struct sglib_hashed_##type##_iterator {\
int currentIndex;\
type **table;\
int (*subcomparator)(type *, type *);\
type *equalto;\
};\
void sglib_hashed_##type##_init(type *table[dim]) {\
SGLIB_HASH_TAB_INIT(type, table, dim);\
}\
int sglib_hashed_##type##_add_if_not_member(type *table[dim], type *elem, type **member) {\
SGLIB_HASH_TAB_ADD_IF_NOT_MEMBER(type, table, dim, elem, hash_function, comparator, *member);\
}\
int sglib_hashed_##type##_is_member(type *table[dim], type *elem) {\
int ind;\
SGLIB_HASH_TAB_IS_MEMBER(type, table, dim, elem, hash_function, ind);\
return(ind != -1);\
}\
type * sglib_hashed_##type##_find_member(type *table[dim], type *elem) {\
type *mmb;\
int ind;\
SGLIB_HASH_TAB_FIND_MEMBER(type, table, dim, elem, hash_function, comparator, ind, mmb);\
return(mmb);\
}\
type *sglib_hashed_##type##_it_init_on_equal(struct sglib_hashed_##type##_iterator *it, type *table[dim], int (*subcomparator)(type *, type *), type *equalto) {\
int i;\
it->table = table;\
it->subcomparator = subcomparator;\
it->equalto = equalto;\
for(i=0; i<(dim) && table[i]==NULL; i++) ;\
it->currentIndex = i;\
if (i<(dim)) return(table[i]);\
return(NULL);\
}\
type *sglib_hashed_##type##_it_init(struct sglib_hashed_##type##_iterator *it, type *table[dim]) {\
sglib_hashed_##type##_it_init_on_equal(it, table, NULL, NULL);\
}\
type *sglib_hashed_##type##_it_current(struct sglib_hashed_##type##_iterator *it) {\
return(table[it->currentIndex]);\
}\
type *sglib_hashed_##type##_it_next(struct sglib_hashed_##type##_iterator *it) {\
i=it->currentIndex;\