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208.c
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208.c
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#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
#include <assert.h>
/* I implement Trie using left-child right-sibling binary tree. */
/* https://en.wikipedia.org/wiki/Left-child_right-sibling_binary_tree */
/* It's not an easy way, the code may not be so elegant. */
/* We can use an array each node to store the children pointers in easy way. */
/* use 1 or 0 to alternate method */
#define LCRS 1
#if LCRS
struct TrieNode {
char val;
struct TrieNode *child; /* most left child */
struct TrieNode *sibling; /* brothers of the current child*/
};
/** Initialize your data structure here. */
struct TrieNode* trieCreate() {
struct TrieNode* dummy = (struct TrieNode *)malloc(sizeof(struct TrieNode));
dummy->val = 0;
dummy->child = NULL;
dummy->sibling = NULL;
return dummy;
}
/**
* Iterative Method
*/
/** Inserts a word into the trie. */
void insert(struct TrieNode* root, char* word) {
if (root == NULL || word == NULL) return;
struct TrieNode** p = &(root->child);
struct TrieNode* new_node = NULL;
while (*word != '\0') {
/* get common prefix */
while (*p) {
if ((*p)->val == *word) {
p = &((*p)->child);
word++;
}
else {
p = &((*p)->sibling);
}
}
new_node = trieCreate();
new_node->val = *word;
*p = new_node;
p = &((*p)->child); /* move forward */
word++;
}
/* put the null character in the tree */
new_node = trieCreate();
new_node->val = '\0';
/* no need to check *p
* 'cause p is new_node's child, *p always equals to NULL */
*p = new_node;
}
/** Returns if the word is in the trie. */
bool search(struct TrieNode* root, char* word) {
if (root == NULL || word == NULL) return false;
if (root->child == NULL) return false;
struct TrieNode* p = root->child;
while (p && *word != '\0') {
if (p->val == *word) {
p = p->child;
word++;
}
else {
p = p->sibling;
}
}
/* check if we have a null in the siblings */
while (p) {
if (p->val == '\0') return true;
p = p->sibling;
}
return false;
}
/** Returns if there is any word in the trie
that starts with the given prefix. */
bool startsWith(struct TrieNode* root, char* prefix) {
if (root == NULL || prefix == NULL) return false;
if (root->child == NULL) return false;
struct TrieNode* p = root->child;
while (p && *prefix != '\0') {
if (p->val == *prefix) {
p = p->child;
prefix++;
}
else {
p = p->sibling;
}
}
if (p && *prefix == '\0') return true;
else return false;
}
/** Deallocates memory previously allocated for the TrieNode. */
void trieFree(struct TrieNode* root) {
if (root == NULL) return;
/* Post order traversal (recursive) */
trieFree(root->child);
trieFree(root->sibling);
free(root);
}
/**
* Recursive Method (insert, search and startWith)
*/
void insert_r(struct TrieNode* root, char* word) {
if (root == NULL || word == NULL) return;
if (root->child != NULL) {
if (root->child->val == *word) {
if (*word == '\0') return;
insert_r(root->child, word + 1);
}
else {
/* get most right sibling */
struct TrieNode** p = &(root->child->sibling);
while (*p) {
if ((*p)->val == *word) {
if (*word == '\0') return;
insert_r(*p, word + 1);
return;
}
p = &((*p)->sibling);
}
struct TrieNode* new_node = trieCreate();
new_node->val = *word;
*p = new_node;
if (*word == '\0') return;
insert_r(*p, word + 1);
}
}
else {
/* if the child is NULL, the sibling must be NULL too */
/* so we don't need to check that. */
struct TrieNode* new_node = trieCreate();
new_node->val = *word;
root->child = new_node;
if (*word == '\0') return;
insert_r(root->child, word + 1);
}
}
bool search_r(struct TrieNode* root, char* word) {
if (root == NULL || word == NULL) return false;
if (root->child == NULL) return false;
if (root->child->val == *word) {
if (*word == '\0') return true;
else return search_r(root->child, word + 1);
}
else {
struct TrieNode* p = root->child->sibling;
while (p) {
if (p->val == *word) {
if (*word == '\0') return true;
else return search_r(p, word + 1);
}
p = p->sibling;
}
return false;
}
}
bool startsWith_r(struct TrieNode* root, char* prefix) {
if (root == NULL || prefix == NULL) return false;
if (root->child == NULL) return false;
if (*prefix == '\0') return true;
if (root->child->val == *prefix) {
return startsWith_r(root->child, prefix + 1);
}
else {
struct TrieNode* p = root->child->sibling;
while (p) {
if (p->val == *prefix) {
return startsWith_r(p, prefix + 1);
}
p = p->sibling;
}
return false;
}
}
#else
struct TrieNode {
bool end;
struct TrieNode *next[26]; /* a-z */
};
struct TrieNode* trieCreate() {
struct TrieNode *dummy = (struct TrieNode *)malloc(sizeof(struct TrieNode));
dummy->end = false;
memset(dummy->next, 0, sizeof(dummy->next));
return dummy;
}
void insert(struct TrieNode* root, char* word) {
if (root == NULL || word == NULL) return;
struct TrieNode *p = root;
while (*word != '\0') {
if (p->next[*word - 'a'] == NULL) {
p->next[*word - 'a'] = trieCreate();
}
p = p->next[*word - 'a'];
word++;
}
p->end = true;
}
bool search(struct TrieNode* root, char* word) {
if (root == NULL || word == NULL) return false;
struct TrieNode *p = root;
while (*word != '\0') {
if (p->next[*word - 'a'] == NULL) {
return false;
}
else {
p = p->next[*word - 'a'];
}
word++;
}
if (p->end) return true;
else return false;
}
bool startsWith(struct TrieNode* root, char* prefix) {
if (root == NULL || prefix == NULL) return false;
struct TrieNode *p = root;
while (*prefix != '\0') {
if (p->next[*prefix - 'a'] == NULL) {
return false;
}
else {
p = p->next[*prefix - 'a'];
}
prefix++;
}
return true;
}
void trieFree(struct TrieNode* root) {
if (root == NULL) return;
int i;
for (i = 0; i < 26; i++) {
trieFree(root->next[i]);
}
free(root);
}
#endif
int main() {
/* recursive method switch */
#define RECURSIVE 0
#if LCRS && RECURSIVE
#define insert insert_r
#define search search_r
#define startsWith startsWith_r
#endif
struct TrieNode* node = trieCreate();
assert(search(node, "some") == false);
insert(node, "s");
assert(search(node, "some") == false);
assert(search(node, "s") == true);
insert(node, "some");
assert(search(node, "some") == true);
insert(node, "somestring");
insert(node, "someword");
insert(node, "word");
assert(search(node, "word") == true);
assert(search(node, "somestring") == true);
assert(search(node, "someword") == true);
assert(search(node, "somew") == false);
assert(search(node, "somes") == false);
assert(search(node, "somex") == false);
assert(startsWith(node, "some") == true);
assert(startsWith(node, "somew") == true);
assert(startsWith(node, "somes") == true);
assert(startsWith(node, "somex") == false);
trieFree(node);
printf("all tests passed!\n");
return 0;
}