/* * Copyright 1995-2014 Andrew Smith * * 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. See COPYING for more details. */ #include "ktree.h" static const int dbg = 0; #define DBG if (dbg != 0) printf #define FAIL(fmt, ...) do \ { \ quithere(1, fmt, ##__VA_ARGS__); \ } while (0); #define RED_RED true #define RED_BLACK false #define Yo true #define No false static K_TREE nil[1] = { { Yo, RED_BLACK, NULL, NULL, NULL, NULL, 0 } }; K_TREE *new_ktree() { K_TREE *ktree = (K_TREE *)malloc(sizeof(*ktree)); if (ktree == NULL) FAIL("%s", "%K_TREE-F-OOM"); ktree->isNil = Yo; ktree->red = RED_BLACK; ktree->parent = nil; ktree->left = nil; ktree->right = nil; ktree->data = NULL; ktree->test = 0; return ktree; } static K_TREE *new_data(K_ITEM *data) { K_TREE *ktree = (K_TREE *)malloc(sizeof(*ktree)); if (ktree == NULL) FAIL("%s", "%K_TREE-F-OOM"); ktree->isNil = No; ktree->red = RED_RED; ktree->parent = nil; ktree->left = nil; ktree->right = nil; ktree->data = data; ktree->test = 0; return ktree; } static int bCount = 0; static long bTestValue = 0; static long nilTestValue = 0; static long lrpTestValue = 0; static long testValue = 1231230L; static long getTestValue() { return ++testValue; } static void show_ktree(K_TREE *root, char *path, int pos, char *(*dsp_funct)(K_ITEM *)) { char col; if (root->isNil == Yo) return; if (root->left->isNil == No) { path[pos] = 'L'; path[pos+1] = '\0'; show_ktree(root->left, path, pos+1, dsp_funct); } path[pos] = '\0'; switch(root->red) { case RED_RED: col = 'R'; break; case RED_BLACK: col = 'B'; break; } printf(" %c %s=%s\n", col, path, dsp_funct(root->data)); if (root->right->isNil == No) { path[pos] = 'R'; path[pos+1] = '\0'; show_ktree(root->right, path, pos+1, dsp_funct); } } void dump_ktree(K_TREE *root, char *(*dsp_funct)(K_ITEM *)) { char buf[42424]; printf("dump:\n"); if (root->isNil == No) { buf[0] = 'T'; buf[1] = '\0'; show_ktree(root, buf, 1, dsp_funct); } else printf(" Empty ktree\n"); } void dsp_ktree(K_LIST *list, K_TREE *root, char *filename) { K_TREE_CTX ctx[1]; K_ITEM *item; FILE *stream; struct tm *tm; time_t now_t; char stamp[128]; now_t = time(NULL); tm = localtime(&now_t); snprintf(stamp, sizeof(stamp), "[%d-%02d-%02d %02d:%02d:%02d]", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec); stream = fopen(filename, "a"); if (!stream) fprintf(stderr, "%s %s() failed to open '%s' (%d) %s", stamp, __func__, filename, errno, strerror(errno)); fprintf(stream, "%s Dump of ktree '%s':\n", stamp, list->name); if (root->isNil == No) { item = first_in_ktree(root, ctx); while (item) { list->dsp_func(item, stream); item = next_in_ktree(ctx); } fprintf(stream, "End\n"); } else fprintf(stream, "Empty ktree\n"); fclose(stream); } static int nilTest(K_TREE *node, char *msg, int depth, int count, K_TREE *nil2) { if (node->isNil == Yo || node == nil2) { if (node == nil2 && node->isNil == No) FAIL("%%K_TREE-F-NIL2NOTNIL '%s' depth=%d count=%d", msg, depth, count); if (node != nil && node != nil2) FAIL("%%K_TREE-F-NOTNILNIL2 '%s' depth=%d count=%d", msg, depth, count); if (node->red == RED_RED) FAIL("%%K_TREE-F-NIRED '%s' depth=%d count=%d", msg, depth, count); if (node != nil2 && node->parent != NULL) FAIL("%%K_TREE-F-NILPARENT '%s' depth=%d count=%d", msg, depth, count); if (node != nil2 && node->left != NULL) FAIL("%%K_TREE-F-NILLEFT '%s' depth=%d count=%d", msg, depth, count); if (node == nil2 && node->left != nil) FAIL("%%K_TREE-F-NIL2LEFT '%s' depth=%d count=%d", msg, depth, count); if (node != nil2 && node->right != NULL) FAIL("%%K_TREE-F-NILRIGHT '%s' depth=%d count=%d", msg, depth, count); if (node == nil2 && node->right != nil) FAIL("%%K_TREE-F-NIL2RIGHT '%s' depth=%d count=%d", msg, depth, count); if (node->data != NULL) FAIL("%%K_TREE-F-NIDATA '%s' depth=%d count=%d", msg, depth, count); } else { count++; if (node->parent == NULL) FAIL("%%K_TREE-F-NOPAR '%s' depth=%d count=%d", msg, depth, count); if (node->left == NULL) FAIL("%%K_TREE-F-NOLEFT '%s' depth=%d count=%d", msg, depth, count); if (node->right == NULL) FAIL("%%K_TREE-F-NORIGHT '%s' depth=%d count=%d", msg, depth, count); if (node->data == NULL) FAIL("%%K_TREE-F-NODATA '%s' depth=%d count=%d", msg, depth, count); if (node->test != nilTestValue) node->test = nilTestValue; else FAIL("%%K_TREE-F-NILTESTVALUE '%s' depth=%d count=%d", msg, depth, count); count = nilTest(node->left, msg, depth+1, count, nil2); count = nilTest(node->right, msg, depth+1, count, nil2); } return(count); } static void bTest(K_TREE *root, K_TREE *cur, char *msg, int count) { if (cur->red != RED_RED) count++; else { if (cur->left->red == RED_RED) FAIL("%%K_TREE-F-CURLR '%s' count=%d", msg, count); if (cur->right->red == RED_RED) FAIL("%%K_TREE-F-CURRR '%s' count=%d", msg, count); } if (cur->isNil == Yo) { if (bCount == 0) bCount = count; if (count != bCount) FAIL("%%K_TREE-F-BCOUNT '%s' count=%d bCount=%d", msg, count, bCount); } else { if (cur->test != bTestValue) cur->test = bTestValue; else FAIL("%%K_TREE-F-BTESTVALUE '%s' count=%d", msg, count); bTest(root, cur->left, msg, count); bTest(root, cur->right, msg, count); } } static void bTestInit(K_TREE *root, char *msg) { bCount = 0; bTestValue = getTestValue(); bTest(root, root, msg, 0); } static void lrpTest(K_TREE *top, char *msg) { if (top->test != lrpTestValue) top->test = lrpTestValue; else FAIL("%%K_TREE-F-LRPTESTVALUE '%s'", msg); if (top->left->isNil == No) { if (top->left->parent != top) FAIL("%%K_TREE-F-LRPTESTL '%s'", msg); lrpTest(top->left, msg); } if (top->right->isNil == No) { if (top->right->parent != top) FAIL("%%K_TREE-F-LRPTESTR '%s'", msg); lrpTest(top->right, msg); } } static __maybe_unused void check_ktree(K_TREE *root, char *msg, K_TREE *nil2, int debugNil, int debugLRP, int debugColor) { if (root->isNil == Yo) return; if (debugNil) { nilTestValue = getTestValue(); nilTest(root, msg, 1, 0, nil2); } if (debugLRP && root->isNil == No) { lrpTestValue = getTestValue(); lrpTest(root, msg); } if (debugColor && root->isNil == No) bTestInit(root, msg); } K_ITEM *first_in_ktree(K_TREE *root, K_TREE_CTX *ctx) { if (root->isNil == No) { while (root->left->isNil == No) root = root->left; *ctx = root; return(root->data); } *ctx = NULL; return(NULL); } K_ITEM *last_in_ktree(K_TREE *root, K_TREE_CTX *ctx) { if (root->isNil == No) { while (root->right->isNil == No) root = root->right; *ctx = root; return(root->data); } *ctx = NULL; return(NULL); } K_ITEM *next_in_ktree(K_TREE_CTX *ctx) { K_TREE *parent; K_TREE *ktree = (K_TREE *)(*ctx); if (ktree->isNil == No) { if (ktree->right->isNil == No) return(first_in_ktree(ktree->right, ctx)); else { parent = ktree->parent; while (parent->isNil == No && ktree == parent->right) { ktree = parent; parent = parent->parent; } if (parent->isNil == No) { *ctx = parent; return(parent->data); } } } *ctx = NULL; return(NULL); } K_ITEM *prev_in_ktree(K_TREE_CTX *ctx) { K_TREE *parent; K_TREE *ktree = (K_TREE *)(*ctx); if (ktree->isNil == No) { if (ktree->left->isNil == No) return(last_in_ktree(ktree->left, ctx)); else { parent = ktree->parent; while (parent->isNil == No && ktree == parent->left) { ktree = parent; parent = parent->parent; } if (parent->isNil == No) { *ctx = parent; return(parent->data); } } } *ctx = NULL; return(NULL); } static K_TREE *left_rotate(K_TREE *root, K_TREE *about) { K_TREE *rotate; rotate = about->right; about->right = rotate->left; if (rotate->left->isNil == No) rotate->left->parent = about; rotate->parent = about->parent; if (about->parent->isNil == Yo) root = rotate; else { if (about == about->parent->left) about->parent->left = rotate; else about->parent->right = rotate; } rotate->left = about; about->parent = rotate; return(root); } static K_TREE *right_rotate(K_TREE *root, K_TREE *about) { K_TREE *rotate; rotate = about->left; about->left = rotate->right; if (rotate->right->isNil == No) rotate->right->parent = about; rotate->parent = about->parent; if (about->parent->isNil == Yo) root = rotate; else if (about == about->parent->right) about->parent->right = rotate; else about->parent->left = rotate; rotate->right = about; about->parent = rotate; return(root); } K_TREE *add_to_ktree(K_TREE *root, K_ITEM *data, double (*cmp_funct)(K_ITEM *, K_ITEM *)) { K_TREE *ktree; K_TREE *x, *y; K_TREE *pp; double cmp; if (root == NULL) FAIL("%s", "%K_TREE-F-ADDNULL add ktree is NULL"); //check_ktree(root, ">add", NULL, 1, 1, 1); if (root->parent != nil && root->parent != NULL) FAIL("%s", "%K_TREE-F-ADDROOT add root isn't the root"); ktree = new_data(data); if (root->isNil == Yo) { if (root != nil) free(root); root = ktree; } else { x = root; y = nil; while (x->isNil == No) { y = x; if ((cmp = (*cmp_funct)(ktree->data, x->data)) < 0.0) x = x->left; else x = x->right; } ktree->parent = y; if (cmp < 0.0) y->left = ktree; else y->right = ktree; x = ktree; while (x != root && x->parent->red == RED_RED) { pp = x->parent->parent; if (x->parent == pp->left) { y = pp->right; if (y->red == RED_RED) { x->parent->red = RED_BLACK; y->red = RED_BLACK; pp->red = RED_RED; x = pp; } else { if (x == x->parent->right) { x = x->parent; root = left_rotate(root, x); pp = x->parent->parent; } x->parent->red = RED_BLACK; pp->red = RED_RED; root = right_rotate(root, pp); } } else { y = pp->left; if (y->red == RED_RED) { x->parent->red = RED_BLACK; y->red = RED_BLACK; pp->red = RED_RED; x = pp; } else { if (x == x->parent->left) { x = x->parent; root = right_rotate(root, x); pp = x->parent->parent; } x->parent->red = RED_BLACK; pp->red = RED_RED; root = left_rotate(root, pp); } } } } root->red = RED_BLACK; //check_ktree(root, "isNil == No && cmp != 0.0) { if ((cmp = (*cmp_funct)(ktree->data, data))) { if (cmp > 0.0) ktree = ktree->left; else ktree = ktree->right; } } if (ktree->isNil == No) { *ctx = ktree; return(ktree->data); } else { *ctx = NULL; return(NULL); } } K_ITEM *find_after_in_ktree(K_TREE *ktree, K_ITEM *data, double (*cmp_funct)(K_ITEM *, K_ITEM *), K_TREE_CTX *ctx) { K_TREE *old = NULL; double cmp = -1.0, oldcmp = -1; if (ktree == NULL) FAIL("%s", "%K_TREE-F-FINDNULL find_after ktree is NULL"); while (ktree->isNil == No && cmp != 0.0) { if ((cmp = (*cmp_funct)(ktree->data, data))) { old = ktree; oldcmp = cmp; if (cmp > 0.0) ktree = ktree->left; else ktree = ktree->right; } } if (ktree->isNil == No) { *ctx = ktree; return next_in_ktree(ctx); } else { if (old) { if (oldcmp > 0.0) { *ctx = old; return(old->data); } *ctx = old; return next_in_ktree(ctx); } *ctx = NULL; return(NULL); } } K_ITEM *find_before_in_ktree(K_TREE *ktree, K_ITEM *data, double (*cmp_funct)(K_ITEM *, K_ITEM *), K_TREE_CTX *ctx) { K_TREE *old = NULL; double cmp = 1.0, oldcmp = 1; if (ktree == NULL) FAIL("%s", "%K_TREE-F-FINDNULL find_before ktree is NULL"); while (ktree->isNil == No && cmp != 0.0) { if ((cmp = (*cmp_funct)(ktree->data, data))) { old = ktree; oldcmp = cmp; if (cmp > 0.0) ktree = ktree->left; else ktree = ktree->right; } } if (ktree->isNil == No) { *ctx = ktree; return prev_in_ktree(ctx); } else { if (old) { if (oldcmp < 0.0) { *ctx = old; return(old->data); } *ctx = old; return prev_in_ktree(ctx); } *ctx = NULL; return(NULL); } } static K_TREE *removeFixup(K_TREE *root, K_TREE *fix) { K_TREE *w = NULL; while (fix != root && fix->red != RED_RED) { if (fix == fix->parent->left) { w = fix->parent->right; if (w->red == RED_RED) { w->red = RED_BLACK; fix->parent->red = RED_RED; root = left_rotate(root, fix->parent); w = fix->parent->right; } if (w->left->red != RED_RED && w->right->red != RED_RED) { w->red = RED_RED; fix = fix->parent; } else { if (w->right->red != RED_RED) { w->left->red = RED_BLACK; w->red = RED_RED; root = right_rotate(root, w); w = fix->parent->right; } w->red = fix->parent->red; fix->parent->red = RED_BLACK; w->right->red = RED_BLACK; root = left_rotate(root, fix->parent); fix = root; } } else { w = fix->parent->left; if (w->red == RED_RED) { w->red = RED_BLACK; fix->parent->red = RED_RED; root = right_rotate(root, fix->parent); w = fix->parent->left; } if (w->right->red != RED_RED && w->left->red != RED_RED) { w->red = RED_RED; fix = fix->parent; } else { if (w->left->red != RED_RED) { w->right->red = RED_BLACK; w->red = RED_RED; root = left_rotate(root, w); w = fix->parent->left; } w->red = fix->parent->red; fix->parent->red = RED_BLACK; w->left->red = RED_BLACK; root = right_rotate(root, fix->parent); fix = root; } } } fix->red = RED_BLACK; return root; } // Does this work OK when you remove the last element in the ktree? // It should return the root as 'nil' K_TREE *remove_from_ktree(K_TREE *root, K_ITEM *data, double (*cmp_funct)(K_ITEM *, K_ITEM *), K_TREE_CTX *ctx) { K_TREE_CTX tmpctx[1]; K_TREE *found; K_ITEM *fdata; K_TREE *x, *y, *nil2; // double cmp; int yred; //check_ktree(root, ">remove", NULL, 1, 1, 1); if (root == NULL) FAIL("%s", "%K_TREE-F-REMNULL remove ktree is NULL"); if (root->isNil == Yo) { *ctx = NULL; return(root); } if (root->parent->isNil == No) FAIL("%s", "%K_TREE-F-REMROOT remove root isn't the root"); fdata = find_in_ktree(root, data, cmp_funct, ctx); if (fdata == NULL) return(root); if (cmp_funct(fdata, data) != 0.0) FAIL("%s", "%K_TREE-F-BADFIND cmp(found, remove) != 0"); found = *ctx; x = nil; y = nil; if (found->left->isNil == Yo || found->right->isNil == Yo) y = found; else { *tmpctx = found; next_in_ktree(tmpctx); y = *tmpctx; } yred = y->red; if (y->left->isNil == No && y->right->isNil == No) FAIL("%s", "%K_TREE-F-REMBADY remove error"); if (y->left->isNil == Yo) x = y->right; else x = y->left; if (x != nil) nil2 = NULL; else { nil2 = new_ktree(); x = nil2; } x->parent = y->parent; if (x->parent->isNil == Yo) root = x; else { if (x->parent->left == y) x->parent->left = x; else x->parent->right = x; } if (y != found) { if (root == found) root = y; if (x == found) x = y; y->red = found->red; y->parent = found->parent; if (y->parent->isNil == No) { if (y->parent->left == found) y->parent->left = y; else y->parent->right = y; } y->left = found->left; if (y->left->isNil == No || y->left == nil2) y->left->parent = y; y->right = found->right; if (y->right->isNil == No || y->right == nil2) y->right->parent = y; } if (yred != RED_RED) root = removeFixup(root, x); if (nil2 != NULL) { if (nil2->parent->isNil == No && nil2->parent->left == nil2) nil2->parent->left = nil; if (nil2->parent->isNil == No && nil2->parent->right == nil2) nil2->parent->right = nil; if (root == nil2) root = nil; /* if (dbg != 0) { if (nil2->left != nil) { DBG("@remove nil2->left wasn't nil!!!\n"); } if (nil2->right != nil) { DBG("@remove nil2->right wasn't nil!!!\n"); } cmp = 0.0; fdata = first_in_ktree(root, tmpctx);; while (fdata != NULL) { cmp++; x = *tmpctx; if (x == nil2) { DBG("@remove found nil2 in ktree %f!!!\n", cmp); } else if (x->left == nil2) { DBG("@remove found nil2 in ktree(left) %f!!!\n", cmp); } else if (x->right == nil2) { DBG("@remove found nil2 in ktree(right) %f!!!\n", cmp); } fdata = next_in_ktree(tmpctx);; } } */ free(nil2); } /* if (dbg != 0) { cmp = 0.0 fdata = first_in_ktree(root, tmpctx);; while (fdata != NULL) { if (cmp_funct(fdata, root->data) < 0) cmp--; else cmp++; fdata = next_in_ktree(tmpctx);; } if (cmp < -10.0 || cmp > 10.0) { DBG("@remove after balance=%f :(\n", cmp); } } */ //check_ktree(root, "data != NULL && free_funct) (*free_funct)(ktree->data); free_ktree_sub(ktree->left, free_funct); free_ktree_sub(ktree->right, free_funct); free(ktree); } } K_TREE *free_ktree(K_TREE *ktree, void (*free_funct)(void *)) { if (ktree == NULL) FAIL("%s", "%K_TREE-F-FREENULL free NULL ktree"); if (ktree->parent != NULL && ktree->parent != nil) FAIL("%s", "%K_TREE-F-FREENOTROOT free ktree not root"); free_ktree_sub(ktree, free_funct); return(nil); }