Mon, 23 May 2016 12:28:32 +0200
added support for icons for the table widget (GTK)
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2015 Olaf Wintermann. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "avl.h" #define ptrcast(ptr) ((void*)(ptr)) static void ucx_avl_connect(UcxAVLTree *tree, UcxAVLNode *node, UcxAVLNode *child, intptr_t nullkey) { if (child) { child->parent = node; } // if child is NULL, nullkey decides if left or right pointer is cleared if (tree->cmpfunc( ptrcast(child ? child->key : nullkey), ptrcast(node->key), tree->userdata) > 0) { node->right = child; } else { node->left = child; } size_t lh = node->left ? node->left->height : 0; size_t rh = node->right ? node->right->height : 0; node->height = 1 + (lh > rh ? lh : rh); } #define avlheight(node) ((node) ? (node)->height : 0) static UcxAVLNode* avl_rotright(UcxAVLTree *tree, UcxAVLNode *l0) { UcxAVLNode *p = l0->parent; UcxAVLNode *l1 = l0->left; if (p) { ucx_avl_connect(tree, p, l1, 0); } else { l1->parent = NULL; } ucx_avl_connect(tree, l0, l1->right, l1->key); ucx_avl_connect(tree, l1, l0, 0); return l1; } static UcxAVLNode* avl_rotleft(UcxAVLTree *tree, UcxAVLNode *l0) { UcxAVLNode *p = l0->parent; UcxAVLNode *l1 = l0->right; if (p) { ucx_avl_connect(tree, p, l1, 0); } else { l1->parent = NULL; } ucx_avl_connect(tree, l0, l1->left, l1->key); ucx_avl_connect(tree, l1, l0, 0); return l1; } static void ucx_avl_balance(UcxAVLTree *tree, UcxAVLNode *n) { int lh = avlheight(n->left); int rh = avlheight(n->right); n->height = 1 + (lh > rh ? lh : rh); if (lh - rh == 2) { UcxAVLNode *c = n->left; if (avlheight(c->right) - avlheight(c->left) == 1) { avl_rotleft(tree, c); } n = avl_rotright(tree, n); } else if (rh - lh == 2) { UcxAVLNode *c = n->right; if (avlheight(c->left) - avlheight(c->right) == 1) { avl_rotright(tree, c); } n = avl_rotleft(tree, n); } if (n->parent) { ucx_avl_balance(tree, n->parent); } else { tree->root = n; } } UcxAVLTree *ucx_avl_new(cmp_func cmpfunc) { return ucx_avl_new_a(cmpfunc, ucx_default_allocator()); } UcxAVLTree *ucx_avl_new_a(cmp_func cmpfunc, UcxAllocator *allocator) { UcxAVLTree *tree = almalloc(allocator, sizeof(UcxAVLTree)); if (tree) { tree->allocator = allocator; tree->cmpfunc = cmpfunc; tree->root = NULL; tree->userdata = NULL; } return tree; } static void ucx_avl_free_node(UcxAllocator *al, UcxAVLNode *node) { if (node) { ucx_avl_free_node(al, node->left); ucx_avl_free_node(al, node->right); alfree(al, node); } } void ucx_avl_free(UcxAVLTree *tree) { UcxAllocator *al = tree->allocator; ucx_avl_free_node(al, tree->root); alfree(al, tree); } UcxAVLNode *ucx_avl_get_node(UcxAVLTree *tree, intptr_t key) { UcxAVLNode *n = tree->root; int cmpresult; while (n && (cmpresult = tree->cmpfunc( ptrcast(key), ptrcast(n->key), tree->userdata))) { n = cmpresult > 0 ? n->right : n->left; } return n; } void *ucx_avl_get(UcxAVLTree *tree, intptr_t key) { UcxAVLNode *n = ucx_avl_get_node(tree, key); return n ? n->value : NULL; } int ucx_avl_put(UcxAVLTree *tree, intptr_t key, void *value) { return ucx_avl_put_s(tree, key, value, NULL); } int ucx_avl_put_s(UcxAVLTree *tree, intptr_t key, void *value, void **oldvalue) { if (tree->root) { UcxAVLNode *n = tree->root; int cmpresult; while ((cmpresult = tree->cmpfunc( ptrcast(key), ptrcast(n->key), tree->userdata))) { UcxAVLNode *m = cmpresult > 0 ? n->right : n->left; if (m) { n = m; } else { break; } } if (cmpresult) { UcxAVLNode *e = almalloc(tree->allocator, sizeof(UcxAVLNode)); if (e) { e->key = key; e->value = value; e->height = 1; e->parent = e->left = e->right = NULL; ucx_avl_connect(tree, n, e, 0); ucx_avl_balance(tree, n); return 0; } else { return 1; } } else { if (oldvalue) { *oldvalue = n->value; } n->value = value; return 0; } } else { tree->root = almalloc(tree->allocator, sizeof(UcxAVLNode)); if (tree->root) { tree->root->key = key; tree->root->value = value; tree->root->height = 1; tree->root->parent = tree->root->left = tree->root->right = NULL; if (oldvalue) { *oldvalue = NULL; } return 0; } else { return 1; } } } int ucx_avl_remove(UcxAVLTree *tree, intptr_t key) { return ucx_avl_remove_s(tree, key, NULL, NULL); } int ucx_avl_remove_node(UcxAVLTree *tree, UcxAVLNode *node) { return ucx_avl_remove_s(tree, node->key, NULL, NULL); } int ucx_avl_remove_s(UcxAVLTree *tree, intptr_t key, intptr_t *oldkey, void **oldvalue) { UcxAVLNode *n = tree->root; int cmpresult; while (n && (cmpresult = tree->cmpfunc( ptrcast(key), ptrcast(n->key), tree->userdata))) { n = cmpresult > 0 ? n->right : n->left; } if (n) { if (oldkey) { *oldkey = n->key; } if (oldvalue) { *oldvalue = n->value; } UcxAVLNode *p = n->parent; if (n->left && n->right) { UcxAVLNode *s = n->right; while (s->left) { s = s->left; } ucx_avl_connect(tree, s->parent, s->right, s->key); n->key = s->key; n->value = s->value; p = s->parent; alfree(tree->allocator, s); } else { if (p) { ucx_avl_connect(tree, p, n->right ? n->right:n->left, n->key); } else { tree->root = n->right ? n->right : n->left; if (tree->root) { tree->root->parent = NULL; } } alfree(tree->allocator, n); } if (p) { ucx_avl_balance(tree, p); } return 0; } else { return 1; } } static size_t ucx_avl_countn(UcxAVLNode *node) { if (node) { return 1 + ucx_avl_countn(node->left) + ucx_avl_countn(node->right); } else { return 0; } } size_t ucx_avl_count(UcxAVLTree *tree) { return ucx_avl_countn(tree->root); }