/* ====================================================================== * Copyright (c) 2000 Theo Schlossnagle * All rights reserved. * The following code was written by Theo Schlossnagle for use in the * Backhand project at The Center for Networking and Distributed Systems * at The Johns Hopkins University. * * This is a skiplist implementation to be used for abstract structures * and is release under the LGPL license version 2.1 or later. A copy * of this license can be found at http://www.gnu.org/copyleft/lesser.html * ====================================================================== */ extern "C" { #include #include #include #include "skiplist.h" } #ifdef USE_DMALLOC # include #endif #ifndef MIN #define MIN(a,b) ((a 31) { /* Num bits in return of lrand48() */ ph=0; randseq = lrand48(); } ph++; return ((randseq & (1 << (ph-1))) >> (ph-1)); } void skiplisti_init(Skiplist *sl) { sl->compare = (SkiplistComparator)NULL; sl->comparek = (SkiplistComparator)NULL; sl->height=0; sl->preheight=0; sl->size=0; sl->top = NULL; sl->bottom = NULL; sl->index = NULL; } static int indexing_comp(void *a, void *b) { assert(a); assert(b); return (void *)(((Skiplist *)a)->compare)>(void *)(((Skiplist *)b)->compare); } static int indexing_compk(void *a, void *b) { assert(b); return a>(void *)(((Skiplist *)b)->compare); } void skiplist_init(Skiplist *sl) { skiplisti_init(sl); sl->index = (Skiplist *)malloc(sizeof(Skiplist)); skiplisti_init(sl->index); skiplist_set_compare(sl->index, indexing_comp, indexing_compk); } void skiplist_set_compare(Skiplist *sl, SkiplistComparator comp, SkiplistComparator compk) { if(sl->compare && sl->comparek) { skiplist_add_index(sl, comp, compk); } else { sl->compare = comp; sl->comparek = compk; } } void skiplist_add_index(Skiplist *sl, SkiplistComparator comp, SkiplistComparator compk) { struct skiplistnode *m; Skiplist *ni; int icount=0; #ifdef SLDEBUG fprintf(stderr, "Adding index to %p\n", sl); #endif skiplist_find(sl->index, (void *)comp, &m); if(m) return; /* Index already there! */ ni = (Skiplist *)malloc(sizeof(Skiplist)); skiplisti_init(ni); skiplist_set_compare(ni, comp, compk); /* Build the new index... This can be expensive! */ m = skiplist_insert(sl->index, ni); while(m->prev) m=m->prev, icount++; for(m=skiplist_getlist(sl); m; skiplist_next(sl, &m)) { int j=icount-1; struct skiplistnode *nsln; nsln = skiplist_insert(ni, m->data); /* skip from main index down list */ while(j>0) m=m->nextindex, j--; /* insert this node in the indexlist after m */ nsln->nextindex = m->nextindex; if(m->nextindex) m->nextindex->previndex = nsln; nsln->previndex = m; m->nextindex = nsln; } } struct skiplistnode *skiplist_getlist(Skiplist *sl) { if(!sl->bottom) return NULL; return sl->bottom->next; } void *skiplist_find(Skiplist *sl, void *data, struct skiplistnode **iter) { void *ret; struct skiplistnode *aiter; if(!sl->compare) return 0; if(iter) ret = skiplist_find_compare(sl, data, iter, sl->compare); else ret = skiplist_find_compare(sl, data, &aiter, sl->compare); return ret; } void *skiplist_find_compare(Skiplist *sli, void *data, struct skiplistnode **iter, SkiplistComparator comp) { struct skiplistnode *m = NULL; Skiplist *sl; if(comp==sli->compare || !sli->index) { sl = sli; } else { skiplist_find(sli->index, (void *)comp, &m); assert(m); sl= (Skiplist *) m->data; } skiplisti_find_compare(sl, data, iter, sl->comparek); return (*iter)?((*iter)->data):(*iter); } int skiplisti_find_compare(Skiplist *sl, void *data, struct skiplistnode **ret, SkiplistComparator comp) { struct skiplistnode *m = NULL; int count=0; m = sl->top; while(m) { int compared; if(m->next) compared=comp(data, m->next->data); if(compared == 0) { #ifdef SL_DEBUG printf("Looking -- found in %d steps\n", count); #endif m=m->next; while(m->down) m=m->down; *ret = m; return count; } if((m->next == NULL) || (compared<0)) m = m->down, count++; else m = m->next, count++; } #ifdef SL_DEBUG printf("Looking -- not found in %d steps\n", count); #endif *ret = NULL; return count; } void *skiplist_next(Skiplist *sl, struct skiplistnode **iter) { if(!*iter) return NULL; *iter = (*iter)->next; return (*iter)?((*iter)->data):NULL; } void *skiplist_previous(Skiplist *sl, struct skiplistnode **iter) { if(!*iter) return NULL; *iter = (*iter)->prev; return (*iter)?((*iter)->data):NULL; } struct skiplistnode *skiplist_insert(Skiplist *sl, void *data) { if(!sl->compare) return 0; return skiplist_insert_compare(sl, data, sl->compare); } struct skiplistnode *skiplist_insert_compare(Skiplist *sl, void *data, SkiplistComparator comp) { struct skiplistnode *m, *p, *tmp, *ret, **stack; int nh=1, ch, stacki; #ifdef SLDEBUG skiplist_print_struct(sl, "BI: "); #endif if(!sl->top) { sl->height = 1; sl->topend = sl->bottomend = sl->top = sl->bottom = (struct skiplistnode *)malloc(sizeof(struct skiplistnode)); assert(sl->top); sl->top->next = (struct skiplistnode *) NULL; sl->top->data = (struct skiplistnode *) NULL; sl->top->prev =(struct skiplistnode *) NULL; sl->top->up = (struct skiplistnode *) NULL; sl->top->down = (struct skiplistnode *) NULL; sl->top->nextindex= (struct skiplistnode *) NULL; sl->top->previndex = (struct skiplistnode *) NULL; sl->top->sl = sl; } if(sl->preheight) { while(nh < sl->preheight && get_b_rand()) nh++; } else { while(nh <= sl->height && get_b_rand()) nh++; } /* Now we have the new height at which we wish to insert our new node */ /* Let us make sure that our tree is a least that tall (grow if necessary)*/ for(;sl->heightheight++) { sl->top->up = (struct skiplistnode *)malloc(sizeof(struct skiplistnode)); assert(sl->top->up); sl->top->up->down = sl->top; sl->top = sl->topend = sl->top->up; sl->top->prev = sl->top->next = sl->top->nextindex = sl->top->previndex = sl->top->up = NULL; sl->top->data = NULL; sl->top->sl = sl; } ch = sl->height; /* Find the node (or node after which we would insert) */ /* Keep a stack to pop back through for insertion */ m = sl->top; stack = (struct skiplistnode **)malloc(sizeof(struct skiplistnode *)*(nh)); stacki=0; while(m) { int compared=-1; if(m->next) compared=comp(data, m->next->data); if(compared == 0) { free(stack); return 0; } if((m->next == NULL) || (compared<0)) { if(ch<=nh) { /* push on stack */ stack[stacki++] = m; } m = m->down; ch--; } else { m = m->next; } } /* Pop the stack and insert nodes */ p = NULL; for(;stacki>0;stacki--) { m = stack[stacki-1]; tmp = (struct skiplistnode *)malloc(sizeof(struct skiplistnode)); tmp->next = m->next; if(m->next) m->next->prev=tmp; tmp->prev = m; tmp->up = NULL; tmp->nextindex = tmp->previndex = NULL; tmp->down = p; if(p) p->up=tmp; tmp->data = data; tmp->sl = sl; m->next = tmp; /* This sets ret to the bottom-most node we are inserting */ if(!p) ret=tmp; p = tmp; } free(stack); if(sl->index != NULL) { /* this is a external insertion, we must insert into each index as well */ struct skiplistnode *p, *ni, *li; li=ret; for(p = skiplist_getlist(sl->index); p; skiplist_next(sl->index, &p)) { ni = skiplist_insert((Skiplist *)p->data, ret->data); assert(ni); #ifdef SLDEBUG fprintf(stderr, "Adding %p to index %p\n", ret->data, p->data); #endif li->nextindex = ni; ni->previndex = li; li = ni; } } else { sl->size++; } #ifdef SLDEBUG skiplist_print_struct(sl, "AI: "); #endif return ret; } struct skiplistnode *skiplist_append(Skiplist *sl, void *data) { int nh=1, ch, compared; struct skiplistnode *lastnode, *nodeago; if(sl->bottomend != sl->bottom) { compared=sl->compare(data, sl->bottomend->prev->data); /* If it doesn't belong at the end, then fail */ if(compared<=0) return NULL; } if(sl->preheight) { while(nh < sl->preheight && get_b_rand()) nh++; } else { while(nh <= sl->height && get_b_rand()) nh++; } /* Now we have the new height at which we wish to insert our new node */ /* Let us make sure that our tree is a least that tall (grow if necessary)*/ lastnode = sl->bottomend; nodeago = NULL; if(!lastnode) return skiplist_insert(sl, data); for(;sl->heightheight++) { sl->top->up = (struct skiplistnode *)malloc(sizeof(struct skiplistnode)); assert(sl->top); sl->top->up->down = sl->top; sl->top = sl->top->up; sl->top->prev = sl->top->next = sl->top->nextindex = sl->top->previndex = NULL; sl->top->data = NULL; sl->top->sl = sl; } ch = sl->height; while(nh) { struct skiplistnode *anode; anode = (struct skiplistnode *)malloc(sizeof(struct skiplistnode)); anode->next = lastnode; anode->prev = lastnode->prev; anode->up = NULL; anode->down = nodeago; if(lastnode->prev) { if(lastnode == sl->bottom) sl->bottom = anode; else if (lastnode == sl->top) sl->top = anode; } nodeago = anode; lastnode = lastnode->up; nh--; } sl->size++; return sl->bottomend; } Skiplist *skiplist_concat(Skiplist *sl1, Skiplist *sl2) { /* Check integrity! */ int compared, eheight; Skiplist temp; struct skiplistnode *lbottom, *lbottomend, *b1, *e1, *b2, *e2; if(sl1->bottomend == NULL || sl1->bottomend->prev == NULL) { skiplist_remove_all(sl1, free); temp = *sl1; *sl1 = *sl2; *sl2 = temp; /* swap them so that sl2 can be freed normally upon return. */ return sl1; } if(sl2->bottom == NULL || sl2->bottom->next == NULL) { skiplist_remove_all(sl2, free); return sl1; } compared = sl1->compare(sl1->bottomend->prev->data, sl2->bottom->data); /* If it doesn't belong at the end, then fail */ if(compared<=0) return NULL; /* OK now append sl2 onto sl1 */ lbottom = lbottomend = NULL; eheight = MIN(sl1->height, sl2->height); b1 = sl1->bottom; e1 = sl1->bottomend; b2 = sl2->bottom; e2 = sl2->bottomend; while(eheight) { e1->prev->next = b2; b2->prev = e1->prev->next; e2->prev->next = e1; e1->prev = e2->prev; e2->prev = NULL; b2 = e2; b1->down = lbottom; e1->down = lbottomend; if(lbottom) lbottom->up = b1; if(lbottomend) lbottomend->up = e1; lbottom = b1; lbottomend = e1; } /* Take the top of the longer one (if it is sl2) and make it sl1's */ if(sl2->height > sl1->height) { b1->up = b2->up; e1->up = e2->up; b1->up->down = b1; e1->up->down = e1; sl1->height = sl2->height; sl1->top = sl2->top; sl1->topend = sl2->topend; } /* move the top pointer to here if it isn't there already */ sl2->top = sl2->topend = b2; sl2->top->up = NULL; /* If it isn't already */ sl1->size += sl2->size; skiplist_remove_all(sl2, free); return sl1; } int skiplist_remove(Skiplist *sl, void *data, FreeFunc myfree) { if(!sl->compare) return 0; return skiplist_remove_compare(sl, data, myfree, sl->comparek); } void skiplist_print_struct(Skiplist *sl, char *prefix) { struct skiplistnode *p, *q; fprintf(stderr, "Skiplist Structure (height: %d)\n", sl->height); p = sl->bottom; while(p) { q = p; fprintf(stderr, prefix); while(q) { fprintf(stderr, "%p ", q->data); q=q->up; } fprintf(stderr, "\n"); p=p->next; } } int skiplisti_remove(Skiplist *sl, struct skiplistnode *m, FreeFunc myfree) { struct skiplistnode *p; if(!m) return 0; if(m->nextindex) skiplisti_remove(m->nextindex->sl, m->nextindex, NULL); else sl->size--; #ifdef SLDEBUG skiplist_print_struct(sl, "BR:"); #endif while(m->up) m=m->up; while(m) { p=m; p->prev->next = p->next; /* take me out of the list */ if(p->next) p->next->prev = p->prev; /* take me out of the list */ m=m->down; /* This only frees the actual data in the bottom one */ if(!m && myfree && p->data) myfree(p->data); free(p); } while(sl->top && sl->top->next == NULL) { /* While the row is empty and we are not on the bottom row */ p = sl->top; sl->top = sl->top->down; /* Move top down one */ if(sl->top) sl->top->up = NULL; /* Make it think its the top */ free(p); sl->height--; } if(!sl->top) sl->bottom = NULL; assert(sl->height>=0); #ifdef SLDEBUG skiplist_print_struct(sl, "AR: "); #endif return sl->height; } int skiplist_remove_compare(Skiplist *sli, void *data, FreeFunc myfree, SkiplistComparator comp) { struct skiplistnode *m; Skiplist *sl; if(comp==sli->comparek || !sli->index) { sl = sli; } else { skiplist_find(sli->index, (void *)comp, &m); assert(m); sl= (Skiplist *) m->data; } skiplisti_find_compare(sl, data, &m, comp); if(!m) return 0; while(m->previndex) m=m->previndex; return skiplisti_remove(sl, m, myfree); } void skiplist_remove_all(Skiplist *sl, FreeFunc myfree) { /* This must remove even the place holder nodes (bottom though top) because we specify in the API that one can free the Skiplist after making this call without memory leaks */ struct skiplistnode *m, *p, *u; m=sl->bottom; while(m) { p = m->next; if(myfree && p->data) myfree(p->data); while(m) { u = m->up; free(m); m=u; } m = p; } sl->top = sl->bottom = NULL; sl->height = 0; sl->size = 0; } void *skiplist_pop(Skiplist * a, FreeFunc myfree) { struct skiplistnode *sln; void *data = NULL; sln = skiplist_getlist(a); if (sln) { data = sln->data; skiplisti_remove(a, sln, myfree); } return data; }