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dtree-dict.c
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dtree-dict.c
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/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
/*
*
* Copyright (C) 2017-21 Corellium LLC
* All rights reserved.
*
*/
#include "libc.h"
#include "dtree.h"
typedef struct dt_elem_s {
unsigned depth;
struct dt_elem_s *left, *right, *parent, **up;
char *str;
} dt_elem;
struct dt_dict_s {
int size;
dt_elem *root;
};
dt_dict *dt_dict_new(int size)
{
dt_dict *dict = calloc(1, sizeof(dt_dict));
if(!dict)
return dict;
dict->size = size;
return dict;
}
static int dt_dict_delta(dt_elem *elem)
{
int res = 0;
if(elem->left)
res -= elem->left->depth + 1;
if(elem->right)
res += elem->right->depth + 1;
return res;
}
static void dt_dict_update(dt_elem *elem)
{
elem->depth = 0;
if(elem->left)
elem->depth = elem->left->depth + 1;
if(elem->right && elem->depth < elem->right->depth + 1)
elem->depth = elem->right->depth + 1;
}
static void dt_dict_pivot(dt_elem *root, dt_elem *pivot)
{
pivot->parent = root->parent;
pivot->up = root->up;
*(pivot->up) = pivot;
if(pivot == root->left) {
root->left = pivot->right;
if(root->left) {
root->left->parent = root;
root->left->up = &(root->left);
}
root->parent = pivot;
root->up = &(pivot->right);
pivot->right = root;
} else {
root->right = pivot->left;
if(root->right) {
root->right->parent = root;
root->right->up = &(root->right);
}
root->parent = pivot;
root->up = &(pivot->left);
pivot->left = root;
}
dt_dict_update(root);
dt_dict_update(pivot);
}
static void dt_dict_rebalance(dt_elem *elem)
{
int delta;
dt_dict_update(elem);
for(; elem; elem=elem->parent) {
delta = dt_dict_delta(elem);
if(delta < -1 || delta > 1) {
if(delta < -2 || delta > 2)
return;
if(delta < -1) {
if(dt_dict_delta(elem->left) > 0)
dt_dict_pivot(elem->left, elem->left->right);
dt_dict_pivot(elem, elem->left);
} else {
if(dt_dict_delta(elem->right) < 0)
dt_dict_pivot(elem->right, elem->right->left);
dt_dict_pivot(elem, elem->right);
}
elem = elem->parent;
}
if(!elem || !elem->parent)
break;
dt_dict_update(elem->parent);
}
}
void *dt_dict_find(dt_dict *_dict, const char *str, unsigned mode)
{
dt_dict *dict = _dict;
dt_elem **pelem = &(dict->root), *parent = NULL;
int cmp;
while(*pelem) {
cmp = strcmp(str, (*pelem)->str);
if(!cmp) {
if(!(mode & DT_DICT_FIND))
return NULL;
return (*pelem) + 1;
}
parent = *pelem;
if(cmp < 0)
pelem = &(*pelem)->left;
else
pelem = &(*pelem)->right;
}
if(!(mode & DT_DICT_ADD))
return NULL;
(*pelem) = calloc(1, sizeof(dt_elem) + dict->size);
if(!*pelem)
return NULL;
(*pelem)->str = strdup(str);
(*pelem)->up = pelem;
(*pelem)->parent = parent;
parent = *pelem;
dt_dict_rebalance(*pelem);
return parent + 1;
}
static void dt_dict_iter_recurse(dt_elem *elem, void(*func)(void *param, const char *str, void *elem), void *param)
{
if(elem->left)
dt_dict_iter_recurse(elem->left, func, param);
func(param, elem->str, elem + 1);
if(elem->right)
dt_dict_iter_recurse(elem->right, func, param);
}
void dt_dict_iter(dt_dict *_dict, void(*func)(void *param, const char *str, void *elem), void *param)
{
dt_dict *dict = _dict;
if(dict->root)
dt_dict_iter_recurse(dict->root, func, param);
}
char *dt_dict_str(void *_elem)
{
dt_elem *elem = _elem;
return elem[-1].str;
}
static void dt_dict_free_recurse(dt_elem *elem)
{
if(elem->left)
dt_dict_free_recurse(elem->left);
if(elem->right)
dt_dict_free_recurse(elem->right);
free(elem->str);
free(elem);
}
void dt_dict_free(dt_dict *_dict)
{
dt_dict *dict = _dict;
if(dict->root)
dt_dict_free_recurse(dict->root);
free(dict);
}