/* * BIRD Internet Routing Daemon -- Red Black Tree * * (c) 2018 Maria Matejka * (c) 2018 CZ.NIC z.s.p.o. * * Can be freely distributed and used under the terms of the GNU GPL. */ #ifndef _BIRD_REDBLACK_H_ #define _BIRD_REDBLACK_H_ /* Assumption: The nodes are always residing on an even address. * We store the node blackness into the parent pointer LSB. */ /* * Typical use case: * struct mystruct { * whatever; * REDBLACK_NODE(struct mystruct, myprefix_); * whatever; * }; */ #define REDBLACK_NODE(type, name) type *name[3] /* Color bit definition */ #define REDBLACK_BLACK 0 #define REDBLACK_RED 1 /* Parent pointer and color composition and resolution */ #define REDBLACK_PARENT_POINTER(name, what) (what)->name[0] #define REDBLACK_PTR(type, pointer) ((type *) pointer) #define REDBLACK_PTR_RED(type, pointer) REDBLACK_PTR(type, (((uintptr_t) (pointer)) | 1)) #define REDBLACK_PTR_BLACK(type, pointer) (pointer) #define REDBLACK_PTR_COLOR(pointer) (((uintptr_t) (pointer)) & 1) #define REDBLACK_NODE_COLOR(name, what) REDBLACK_PTR_COLOR(REDBLACK_PARENT_POINTER(name, what)) #define REDBLACK_PTR_COMPOSE(type, pointer, color) REDBLACK_PTR(type, (((uintptr_t) (pointer)) | (color))) #define REDBLACK_PTR_PTR(type, pointer) REDBLACK_PTR(type, (((uintptr_t) (pointer)) & ~1)) #define REDBLACK_PARENT(type, name, what) REDBLACK_PTR_PTR(type, REDBLACK_PARENT_POINTER(name, what)) #define REDBLACK_SET_COLOR(type, name, what, color) \ (REDBLACK_PARENT_POINTER(name, what) = REDBLACK_PTR_COMPOSE(type, REDBLACK_PARENT(type, name, what), color)) /* Left and right direction */ #define REDBLACK_LEFT 1 #define REDBLACK_RIGHT 2 #define REDBLACK_CHILD(name, what, where) (what)->name[where] #define REDBLACK_CHILDREN(name, what) { (what)->name[REDBLACK_LEFT], (what)->name[REDBLACK_RIGHT] } #define REDBLACK_LEFT_CHILD(name, what) REDBLACK_CHILD(name, what, REDBLACK_LEFT) #define REDBLACK_RIGHT_CHILD(name, what) REDBLACK_CHILD(name, what, REDBLACK_RIGHT) #define REDBLACK_PARENT_SIDE(name, parent, child) ((REDBLACK_LEFT_CHILD(name, parent) == child) ? REDBLACK_LEFT : REDBLACK_RIGHT) #define REDBLACK_DUMP(type, name, root, dumper) \ do { \ type *n = root; \ int depth = 0, dir = 0; \ while (n) { \ switch (dir) { \ case 0: if (REDBLACK_LEFT_CHILD(name, n)) { \ ASSERT(REDBLACK_PARENT(type, name, REDBLACK_LEFT_CHILD(name, n)) == n); \ n = REDBLACK_LEFT_CHILD(name, n); dir = 0; depth++; break; \ } __attribute__((fallthrough)); \ case 1: dumper(n, REDBLACK_NODE_COLOR(name, n), depth); \ if (REDBLACK_RIGHT_CHILD(name, n)) { \ ASSERT(REDBLACK_PARENT(type, name, REDBLACK_RIGHT_CHILD(name, n)) == n); \ n = REDBLACK_RIGHT_CHILD(name, n); dir = 0; depth++; break; \ } __attribute__((fallthrough)); \ case 2: { \ type *p = REDBLACK_PARENT(type, name, n); \ if (p) dir = REDBLACK_PARENT_SIDE(name, p, n); \ n = p; \ depth--; \ break; \ } \ } \ } \ } while (0) #define REDBLACK_MAX_REASONABLE_DEPTH 256 #define REDBLACK_CHECK(type, name, key, compare, root) do { \ if (!root) \ break; \ type *prev = NULL; \ struct redblack_check { \ type *node; \ int state; \ int blackness[2]; \ } stack[REDBLACK_MAX_REASONABLE_DEPTH] = { \ {}, \ { .node = root } \ }; \ int pos = 1; \ while (pos > 0) { \ switch (stack[pos].state) { \ case 0: \ if (REDBLACK_LEFT_CHILD(name, stack[pos].node)) { \ stack[pos+1] = (struct redblack_check) { .node = REDBLACK_LEFT_CHILD(name, stack[pos].node) }; \ ASSERT(compare(key(stack[pos+1].node), key(stack[pos].node)) < 0); \ pos++; \ continue; \ } \ stack[pos].state++; \ __attribute__((fallthrough)); \ case 1: \ ASSERT(!prev || (compare(key(prev), key(stack[pos].node)) < 0)); \ if (REDBLACK_RIGHT_CHILD(name, stack[pos].node)) { \ stack[pos+1] = (struct redblack_check) { .node = REDBLACK_RIGHT_CHILD(name, stack[pos].node) }; \ ASSERT(compare(key(stack[pos+1].node), key(stack[pos].node)) > 0); \ pos++; \ continue; \ } \ stack[pos].state++; \ __attribute__((fallthrough)); \ case 2: \ ASSERT(stack[pos].blackness[0] == stack[pos].blackness[1]); \ stack[pos-1].blackness[stack[pos-1].state] = stack[pos].blackness[0] + (REDBLACK_NODE_COLOR(name, stack[pos].node) == REDBLACK_BLACK); \ pos--; \ stack[pos].state++; \ } \ } \ /* printf("Redblack check OK. Overall blackness: %d\n", stack[0].blackness[0]); */ \ } while(0) #define REDBLACK_FIND_POINTER(name, key, compare, root, what, pointer) \ for ( \ int _cmp = !(pointer = &(root)); \ (*pointer) && (_cmp = compare((what), key((*pointer)))); \ pointer = &(REDBLACK_CHILD(name, (*pointer), ((_cmp < 0) ? 1 : 2))) \ ) #define REDBLACK_FIND(type, name, key, compare, root, what) \ ({ type **pointer; REDBLACK_FIND_POINTER(name, key, compare, root, what, pointer); *pointer; }) #define REDBLACK_FIND_UP(type, name, key, compare, root, what) ({ \ type **pointer, *prev = NULL, *out; \ REDBLACK_FIND_POINTER(name, key, compare, root, what, pointer) \ prev = *pointer; \ if (!*pointer && prev) \ if (pointer == &(REDBLACK_RIGHT_CHILD(name, prev))) \ out = REDBLACK_NEXT(type, name, prev); \ else \ out = prev; \ else \ out = *pointer; \ out; \ }) #define REDBLACK_FIND_DOWN(type, name, key, compare, root, what) ({ \ type **pointer, *prev = NULL, *out; \ REDBLACK_FIND_POINTER(name, key, compare, root, what, pointer) \ prev = *pointer; \ if (!*pointer && prev) \ if (pointer == &(REDBLACK_LEFT_CHILD(name, prev))) \ out = REDBLACK_PREV(type, name, prev); \ else \ out = prev; \ else \ out = *pointer; \ out; \ }) #define REDBLACK_FIRST(type, name, root) ({ \ type *first = root; \ if (first) \ while (REDBLACK_LEFT_CHILD(name, first)) \ first = REDBLACK_LEFT_CHILD(name, first); \ first; \ }) #define REDBLACK_NEXT(type, name, node) ({ \ type *where = node; \ if (REDBLACK_RIGHT_CHILD(name, where)) { \ where = REDBLACK_RIGHT_CHILD(name, where); \ while (REDBLACK_LEFT_CHILD(name, where)) \ where = REDBLACK_LEFT_CHILD(name, where); \ } else \ while (1) { \ type *p = REDBLACK_PARENT(type, name, where); \ int ps = p ? REDBLACK_PARENT_SIDE(name, p, where) : 0; \ where = p; \ if (ps == REDBLACK_RIGHT) \ continue; \ break; \ } \ where; \ }) #define REDBLACK_PREV(type, name, node) ({ \ type *where = node; \ if (REDBLACK_LEFT_CHILD(name, where)) { \ where = REDBLACK_LEFT_CHILD(name, where); \ while (REDBLACK_RIGHT_CHILD(name, where)) \ where = REDBLACK_RIGHT_CHILD(name, where); \ } else \ while (1) { \ type *p = REDBLACK_PARENT(type, name, where); \ int ps = p ? REDBLACK_PARENT_SIDE(name, p, where) : 0; \ where = p; \ if (ps == REDBLACK_LEFT) \ continue; \ break; \ } \ where; \ }) /* Low level tree manipulation */ /* Connect a node @ch to its new parent @p on side @side, setting color of @ch to @color */ #define REDBLACK_CONNECT_NODE_SET_COLOR(type, name, p, side, ch, color) \ (ch ? (REDBLACK_PARENT_POINTER(name, (REDBLACK_CHILD(name, p, side) = ch)) = REDBLACK_PTR_COMPOSE(type, p, color)) \ : (REDBLACK_CHILD(name, p, side) = NULL)) /* Connect a node @ch to its new parent @p on side @side, keeping its former color */ #define REDBLACK_CONNECT_NODE_KEEP_COLOR(type, name, p, side, ch) \ REDBLACK_CONNECT_NODE_SET_COLOR(type, name, p, side, ch, REDBLACK_NODE_COLOR(name, ch)) /* Opposite side macros (left <=> right) */ #define REDBLACK_OPPOSITE(side) (3-(side)) /* Tree rotation in a given direction. * Left rotation: * * (P) (C) * / XX XX \ * (A) (C) ---> (P) (D) * X \ / X * (B) (D) (A) (B) * * Right rotation is in the opposite direction. */ #define REDBLACK_ROTATE(type, name, root, p, side) do { \ type *rp = p, \ *rg = REDBLACK_PARENT(type, name, rp), \ *rc = REDBLACK_CHILD(name, rp, REDBLACK_OPPOSITE(side)), \ *rb = REDBLACK_CHILD(name, rc, side); \ int rgs = rg ? REDBLACK_PARENT_SIDE(name, rg, rp) : 0; \ REDBLACK_CONNECT_NODE_KEEP_COLOR(type, name, rc, side, rp); \ REDBLACK_CONNECT_NODE_KEEP_COLOR(type, name, rp, REDBLACK_OPPOSITE(side), rb); \ if (rgs) \ REDBLACK_CONNECT_NODE_KEEP_COLOR(type, name, rg, rgs, rc); \ else { \ REDBLACK_PARENT_POINTER(name, rc) = NULL; \ root = rc; \ } \ } while (0) #define REDBLACK_INSERT(type, name, key, compare, root, what) do { \ type **where = &(root); \ what->name[1] = what->name[2] = NULL; \ REDBLACK_FIND_POINTER(name, key, compare, root, key(what), where) \ REDBLACK_PARENT_POINTER(name, what) = REDBLACK_PTR_RED(type, *where); \ ASSERT(!*where); \ *where = what; \ type *n = *where; \ do { \ if (((uintptr_t) REDBLACK_PARENT_POINTER(name, n)) == 1) \ REDBLACK_PARENT_POINTER(name, n) = NULL; \ if (REDBLACK_PARENT_POINTER(name, n) == NULL) \ break; \ type *p = REDBLACK_PARENT(type, name, n); \ if (REDBLACK_NODE_COLOR(name, p) == REDBLACK_BLACK) \ break; \ type *g = REDBLACK_PARENT(type, name, p); \ type *u = REDBLACK_CHILD(name, g, REDBLACK_OPPOSITE(REDBLACK_PARENT_SIDE(name, g, p))); \ if (u && REDBLACK_NODE_COLOR(name, u) == REDBLACK_RED) { \ REDBLACK_SET_COLOR(type, name, u, REDBLACK_BLACK); \ REDBLACK_SET_COLOR(type, name, p, REDBLACK_BLACK); \ REDBLACK_SET_COLOR(type, name, g, REDBLACK_RED); \ n = g; \ continue; \ } \ int gc = REDBLACK_PARENT_SIDE(name, g, p); \ int pc = REDBLACK_PARENT_SIDE(name, p, n); \ if (gc != pc) { \ REDBLACK_ROTATE(type, name, root, p, gc); \ REDBLACK_SET_COLOR(type, name, n, REDBLACK_BLACK); \ } else \ REDBLACK_SET_COLOR(type, name, p, REDBLACK_BLACK); \ REDBLACK_ROTATE(type, name, root, g, REDBLACK_OPPOSITE(gc)); \ REDBLACK_SET_COLOR(type, name, g, REDBLACK_RED); \ break; \ } while (1); \ } while (0) #define REDBLACK_EXCHANGE(type, name, root, aa, bb) do { \ type *a = aa, *b = bb; \ type *ap = REDBLACK_PARENT(type, name, a), *al = REDBLACK_LEFT_CHILD(name, a), *ar = REDBLACK_RIGHT_CHILD(name, a); \ type *bp = REDBLACK_PARENT(type, name, b), *bl = REDBLACK_LEFT_CHILD(name, b), *br = REDBLACK_RIGHT_CHILD(name, b); \ int as = ap ? REDBLACK_PARENT_SIDE(name, ap, a) : 0, bs = bp ? REDBLACK_PARENT_SIDE(name, bp, b) : 0; \ if ((ap != b) || (as != REDBLACK_LEFT)) \ REDBLACK_CONNECT_NODE_KEEP_COLOR(type, name, a, REDBLACK_LEFT, bl); \ if ((bp != a) || (bs != REDBLACK_LEFT)) \ REDBLACK_CONNECT_NODE_KEEP_COLOR(type, name, b, REDBLACK_LEFT, al); \ if ((ap != b) || (as != REDBLACK_RIGHT)) \ REDBLACK_CONNECT_NODE_KEEP_COLOR(type, name, a, REDBLACK_RIGHT, br); \ if ((bp != a) || (bs != REDBLACK_RIGHT)) \ REDBLACK_CONNECT_NODE_KEEP_COLOR(type, name, b, REDBLACK_RIGHT, ar); \ int ac = REDBLACK_NODE_COLOR(name, a), bc = REDBLACK_NODE_COLOR(name, b); \ if (a == bp) \ bp = b; \ if (b == ap) \ ap = a; \ if (ap) \ REDBLACK_CONNECT_NODE_SET_COLOR(type, name, ap, as, b, ac); \ else { \ REDBLACK_PARENT_POINTER(name, b) = NULL; \ root = b; \ } \ if (bp) \ REDBLACK_CONNECT_NODE_SET_COLOR(type, name, bp, bs, a, bc); \ else { \ REDBLACK_PARENT_POINTER(name, a) = NULL; \ root = a; \ } \ } while (0) #define REDBLACK_DELETE(type, name, root, what_) do { \ type *what = what_; \ type *cl = REDBLACK_LEFT_CHILD(name, what); \ type *cr = REDBLACK_RIGHT_CHILD(name, what); \ if (cl && cr) { \ type *s = cl; \ while (REDBLACK_RIGHT_CHILD(name, s)) s = REDBLACK_RIGHT_CHILD(name, s); \ REDBLACK_EXCHANGE(type, name, root, s, what); \ cl = REDBLACK_LEFT_CHILD(name, what); \ cr = REDBLACK_RIGHT_CHILD(name, what); \ } \ type *p = REDBLACK_PARENT(type, name, what); \ if (REDBLACK_NODE_COLOR(name, what) == REDBLACK_RED) { \ ASSERT((cl == NULL) && (cl == NULL)); \ REDBLACK_CHILD(name, p, REDBLACK_PARENT_SIDE(name, p, what)) = NULL; \ break; \ } \ /* The only child now must be red */ \ int ps = REDBLACK_PARENT_SIDE(name, p, what); \ if (cl) { \ REDBLACK_CONNECT_NODE_SET_COLOR(type, name, p, ps, cl, REDBLACK_BLACK); \ break; \ } \ if (cr) { \ REDBLACK_CONNECT_NODE_SET_COLOR(type, name, p, ps, cr, REDBLACK_BLACK); \ break; \ } \ type *drop = what; \ while (1) { /* Invariant: what is black */ \ if (what == root) { /* Case 1 */ \ root = NULL; \ break; \ } \ type *p = REDBLACK_PARENT(type, name, what); \ int ws = REDBLACK_PARENT_SIDE(name, p, what); \ type *s = REDBLACK_CHILD(name, p, REDBLACK_OPPOSITE(ws)); \ /* Case 2 */ \ if (s && (REDBLACK_NODE_COLOR(name, s) == REDBLACK_RED)) { /* Therefore p is black also in case 2 */ \ REDBLACK_ROTATE(type, name, root, p, ws); \ REDBLACK_SET_COLOR(type, name, p, REDBLACK_RED); \ REDBLACK_SET_COLOR(type, name, s, REDBLACK_BLACK); \ continue; \ } \ if (drop) drop = REDBLACK_CHILD(name, p, ws) = NULL; \ type *sc[2] = REDBLACK_CHILDREN(name, s); \ /* Case 3 & 4: sc[0] and sc[1] are both black; s is black from case 2 */ \ if ((!sc[0] || REDBLACK_NODE_COLOR(name, sc[0]) == REDBLACK_BLACK) && \ (!sc[1] || REDBLACK_NODE_COLOR(name, sc[1]) == REDBLACK_BLACK)) { \ if (REDBLACK_NODE_COLOR(name, p) == REDBLACK_BLACK) { /* Case 3 */ \ /* No red node nearby, pushing the change up the tree */ \ REDBLACK_SET_COLOR(type, name, s, REDBLACK_RED); \ what = p; \ continue; \ } else { /* Case 4: p is red */ \ /* Moving the red down the other tree */ \ REDBLACK_SET_COLOR(type, name, p, REDBLACK_BLACK); \ REDBLACK_SET_COLOR(type, name, s, REDBLACK_RED); \ break; \ } \ } \ /* Now sc[0] or sc[1] must be red (one or both) */ \ /* Case 5: the niece on the opposite side is black */ \ int nop = (REDBLACK_OPPOSITE(ws) == REDBLACK_RIGHT); \ if (!sc[nop] || (REDBLACK_NODE_COLOR(name, sc[nop]) == REDBLACK_BLACK)) { \ REDBLACK_SET_COLOR(type, name, s, REDBLACK_RED); \ REDBLACK_SET_COLOR(type, name, sc[1-nop], REDBLACK_BLACK); \ REDBLACK_ROTATE(type, name, root, s, REDBLACK_OPPOSITE(ws)); \ s = REDBLACK_CHILD(name, p, REDBLACK_OPPOSITE(ws)); \ sc[0] = REDBLACK_LEFT_CHILD(name, s); \ sc[1] = REDBLACK_RIGHT_CHILD(name, s); \ } \ /* Case 6: the niece on the opposite side is red */ \ REDBLACK_ROTATE(type, name, root, p, ws); \ REDBLACK_SET_COLOR(type, name, s, REDBLACK_NODE_COLOR(name, p)); \ REDBLACK_SET_COLOR(type, name, p, REDBLACK_BLACK); \ REDBLACK_SET_COLOR(type, name, sc[nop], REDBLACK_BLACK); \ break; \ } \ } while (0) #endif