# K-ary tree (sorting words)

I'm struggling with a problem in C and I can't figure what is happening. I'm making a tree to sort words depending on the frequency of letters (e.g. "cab" is "1a 1b 1c"). Here is my code :

``````#define M 8 //maximal number of appearances of a letter
#define LAST_LETTER 25 //number of last letter
#define bzero(b,len) (memset((b), '\0', (len)), (void) 0)
static const char* alphabet = {"abcdefghijklmnopqrstuvwxyz"};

//TODO: define list structures

typedef struct word word;
struct word {
char* _word;
word *next;
};

typedef struct list list;
struct list {
word *first;
};

typedef struct dict dict;
struct dict {
dict *children[M];
list *words[M];
};

//returns an empty list
list * list_new() {
list *l = (list*) malloc(sizeof(list));
word *w = (word*) malloc(sizeof(word));
if (l == NULL || w == NULL) {
printf("could not create list : memory allocation failed\n");
return;
}
w->_word = NULL;
w->next = NULL;
l->first = w;
return l;
}

//append word at end of list
void list_append(list *l, char *w) {
// create a new word
word *new_word = malloc(sizeof(word));
if (l == NULL || new_word == NULL) {
printf("could not append word to list : list is empty\n");
return;
}
new_word->_word = malloc(strlen(w) + 1);
strcpy(new_word->_word, w);
new_word->next = NULL;
//insert the word
if (l->first->_word == NULL) {
l->first->_word = new_word->_word;
}
else {
//word *temp = malloc(sizeof(word));
word *temp;
temp = l->first;
while(temp->next != NULL) {
temp=temp->next;
}
temp->next = new_word;
}
}

//print word list
void list_print(list *l) {
if (l == NULL || l->first == NULL) {
printf("could not print list : list is empty\n");
return;
}
word *current = l->first;
while (current != NULL) {
printf("%s -> ", current->_word);
current = current->next;
}
printf("NULL\n");
}

char *compute_signature(const char *word) {
char *signature = (char*) malloc(26);
memset((void*)signature, 0, 26);
int i = 0, j = 0, n = 0;
char current_letter, letter;
for (i = 0; i < 26; i++) {
current_letter = alphabet[i];
n = 0;
for (j = 0; j < (int) strlen(word); j++) {
letter = word[j];
if (letter == current_letter) {
n++;
}
}
signature[i] = (char) n;
}
return signature;
}

void dict_insert(dict *d, char *signature, unsigned int current_letter, char *w) {
int j = 0;
int steps = 0;
int occur = 0;
dict *temp = NULL;
if (current_letter == strlen(w)-1) {
printf("Word found : %s!\n",w);
int i = 0;
int different_letters = 0;
for (i = 0; i < 26; i++) {
if ((int) signature[i] > 0) {
different_letters++;
}
}
for (i = 0; i < 26; i++) {
occur = (int) signature[i];
if (occur > 0) {
steps++;
if (steps < different_letters) break;
}
else {
if (temp == NULL) {
temp = d;
}
if (temp->children[occur] == NULL) {
temp->children[occur] = (dict*) malloc(sizeof(dict));
temp = temp->children[occur];
}
}
}
if (temp == NULL) {
temp = d;
}
list *l = NULL;
if (temp->words[occur] == NULL || temp->words[occur]->first == NULL) {
temp->words[occur] =  list_new();
l = temp->words[occur];
}
else {
l = temp->words[occur];
}
char *new;
new = malloc(strlen(w) + 1);
strcpy(new, w);
list_print(l);
/*list_append(l,new);
list_print(l);*/
}
else {
printf("Current letter: %c.\n",w[current_letter]);
dict_insert(d,signature,current_letter+1,w);
}
}

dict * read_words(const char *file) {
FILE* f = NULL;
f = fopen(file, "r");
if (f == NULL) {
printf("Could not open file.\n");
exit(EXIT_FAILURE);
}
char line[256];
dict *d = (dict*) malloc(sizeof(dict));
//bzero((void*)d, sizeof(dict));
while (fgets(line, sizeof(line), f) != NULL) {
if (line[strlen(line) - 1] == '\n') {
line[strlen(line) - 1] = '\0';
}
char *new;
new = malloc(strlen(line) + 1);
strcpy(new, line);
char *signature = compute_signature(new);
dict_insert(d, signature, 0, new);
free((void*)signature);
}
return d;
}

int main(int argc, const char* argv[]) {
/*list *myList = list_new();
list_print(myList);
list_append(myList,"Word1");
list_print(myList);
list_append(myList,"Word2");
list_print(myList);
list_append(myList,"Word3");
list_print(myList);*/
/*list_print(d->words[1]);
list_print(d->children[0]->words[1]);
list_print(d->children[0]->children[0]->words[1]);
list_print(d->words[2]);
list_print(d->children[0]->words[2]);*/
return 0;
}
``````

This code almost works. But not as intended: some words are misplaced in the tree, and sometimes the lists seems to be duplicated (I have not figured how exactly yet). Can you please help me clean this code (maybe pointing out the biggest mistakes^^) ?

Edit: code partially fixed with comments. I have a segfault on `list_append()`, at the line `if (strcmp(l->first->_word, "") == 0)`.

Edit 2: When I pass a word in my algorithm, I need to test if the list exists or not: e.g. I add "doom" to the list corresponding to "1d 1m 2o", when I pass "mood" I want the algorithm to add it to the same list. Here is how I tried to achieve this:

``````if (temp == NULL) {
temp = d;
}
list *l = NULL;
if (temp->words[occur] == NULL || temp->words[occur]->first == NULL) {
temp->words[occur] =  list_new();
l = temp->words[occur];
}
else {
l = temp->words[occur];
}
``````

I have a segfault for `temp->words[occur]->first == NULL`...

Edit 3: my code is compiling but the words are not added to the right list. I think the issue lies in `dict_insert()` which declaration is :

``````void dict_insert(dict *d, char *signature, unsigned int current_letter, char *w) {
int j = 0;
int steps = 0;
int occur = 0;
dict *temp = NULL;
if (current_letter == strlen(w)-1) {
printf("Word found : %s!\n",w);
int i = 0;
int different_letters = 0;
for (i = 0; i < 26; i++) {
if ((int) signature[i] > 0) {
different_letters++;
}
}
for (i = 0; i < 26; i++) {
occur = (int) signature[i];
if (occur > 0) {
steps++;
if (steps == different_letters) break;
}
printf("%d RIGHT\n",occur);
printf("1 DOWN\n");
if (temp == NULL) {
temp = d;
}
temp->children[occur] = (dict*) realloc(temp->children[occur], sizeof(dict));
//temp = temp->children[occur]
}
printf("%d RIGHT\n",occur);
if (temp == NULL) {
temp = d;
}
if (temp->words[occur] == NULL) {
list *l = list_new();
temp->words[occur] = l;
}
char *new;
new = malloc(strlen(w) + 1);
strcpy(new, w);
list_print(temp->words[occur]);
list_append(temp->words[occur],new);
list_print(temp->words[occur]);
}
else {
printf("Current letter: %c.\n",w[current_letter]);
dict_insert(d,signature,current_letter+1,w);
}
}
``````

Edit 4: `dict_insert()` completely reworked.

``````void dict_insert(dict *d, char *signature, unsigned int current_letter, char *w) {
int occur;
occur = (int) signature[current_letter];
if (current_letter == LAST_LETTER) {
if (d->words[occur] == NULL) {
d->words[occur] = list_new();
}
char *new;
new = malloc(strlen(w) + 1);
strcpy(new, w);
printf("word found : %s!\n",w);
list_print(d->words[occur]);
list_append(d->words[occur],new);
list_print(d->words[occur]);
}
else {
if (d->children[occur] == NULL) {
d->children[occur] = malloc(sizeof(dict));
}
d = d->children[occur];
dict_insert(d,signature,current_letter+1,w);
}
}
``````

still a segfault on `if (d->children[occur] == NULL)`...

-
In `read_words` you use an uninitialized `size`. Try `sizeof line` instead (and get rid of the `size` variable): `while (fgets(line, sizeof line, f) != NULL) {`. Also, increase the warning level of your compiler and mind the warnings. –  pmg Nov 25 '11 at 10:25
1) You don't need the list (it contains only a pointer to a word) 2) you don't need a word with a "" payload: a NULL pointer (for eather the string or the word) can carry exactly the same information. 3) the compute_signature function is highly inefficent. 4) instead of aclling strlen() multiple times it might be better to call it once and remember and reuse the result. 5) don't cast malloc()s returnvalue. –  wildplasser Nov 25 '11 at 10:32
OK, I will work on that. I have added an "Edit 2" with a specific question on my algorithm. @pmg: Fixed. Thank you. –  kh4r4 Nov 25 '11 at 12:08
If anyone could give me a clue about my edit 2 issue, it would be greatly appreciated –  kh4r4 Nov 25 '11 at 15:14
I think I'm really close to the answer, but I must have made a big pointer mistake somewhere... –  kh4r4 Nov 26 '11 at 13:30

In `compute_signature` you are trying to compare the current letter of the alphabet with the current letter of the word by

``````strcmp((const char*) &letter, (const char*) &current_letter) == 0
``````

while `letter` and `current_letter` are `char *`. So you are pointing them somewhere into memory by `letter = alphabet[i]` and then taking the address of the pointer and sticking it into `strcmp`. I'm surprised it didn't crash in the original version.

`letter` and `current_letter` should be changed to type `char` instead of `char *` and your comparison should be `if (letter == current_letter)`

A few other remarks:

1. You are casting the return value of `malloc`. While this won't necessarily break anything it's not a good idea.
2. When computing the signature and using it you constantly cast between `int` and `char`. While it is unlikely you'll ever have a word with more than 127 occurences of the same letter you should consider changing signature to be an array of `short` or `int`
3. You have a lot of casts in your code. Casts are a way of "forcing" the compiler to accept the type as you want it which you should only do if it is really necessary as it can lead to masking bugs. So whenever you write a cast ask yourself: Why do I have to do it and can I avoid it?
4. In `list_append` you do

``````word *temp = malloc(sizeof(word));
temp = l->first;
``````

This creates a memory leak as you allocate some memory and then you forget about it by setting `temp` to the list head. Just get rid of the `malloc` it is not necessary. Same thing in `dict_insert`

``````temp->words[occur] = (list*) malloc(sizeof(list));
list *l = list_new();
temp->words[occur] = l;
``````

Get rid of the `malloc`.

-
just tested, it does not work :( –  kh4r4 Nov 24 '11 at 17:58
OK, thanks for your remarks, I will take a look at it. –  kh4r4 Nov 24 '11 at 18:10
@kh4r4 "Does not work" is not a good problem description –  ChrisWue Nov 24 '11 at 18:14
No, it is not, I must admit. But I have only a pointer exception so I can't say much more. –  kh4r4 Nov 24 '11 at 18:41
@kh4r4: Sorry, I was briefly confused, fixed the explanation –  ChrisWue Nov 24 '11 at 18:56