Exemple #1
0
bag_t *generate_index(FILE *input, int min_word_len)
{
    bag_t *index = bag_create(entry_cmp);

    if (index) {
        char word[LINE_LENGTH] = "";
        entry_t new_word, *existing_entry;
        bag_elem_t new_entry;
        unsigned page = 0;
        while (get_word(input, word, &page))
        {
            new_word.entry_word = word;
            // check if the length of the word is long enough
            if(strlen(word) >= min_word_len)
            {
                existing_entry = bag_contains(index, &new_word);
                if(existing_entry != NULL) // if the word is already in index
                {
                    entry_add(existing_entry, page); // add the location to the list of locations for that word
                }
                else // if the word isn't in the index
                {
                    new_entry = entry_create(word, page); // create the entry
                    bag_insert(index, new_entry); // add the location
                }
            }
        }
    }
    return index;
}
//adds a new entry to the list with the values user inputs
entry* set(char *ptr, char key[MAX_KEY], entry *entryHead) {
	//list is empty, initialize a new list
	if (entryHead == NULL) {
		entryHead = (entry *) entrylist_init(key);	
	}
	
	//find entry with the specified key
	entry *chosenEntry = get_entry(entryHead, key);
	
	//entry with such a key does not exist. add new entry to the list
	if (chosenEntry == NULL) {
		chosenEntry = entry_add(entryHead, key);
		entryHead = chosenEntry;
	}
	
	//if the entry already has values, free the memory that is allocated for those values
	if (chosenEntry->values != NULL) {
		free(chosenEntry->values);	
	}
	
	size_t length = 0;
	chosenEntry->values = read_values(ptr, &length);
	chosenEntry->length = length;
	printf("ok\n");
	
	return entryHead;  //updated head of the list
}
static int object_entry_handler(const char *name, const struct json_value *val,
				void *arg)
{
	struct odict *o = arg;

	return entry_add(o, name, val);
}
Exemple #4
0
int main(int argc, char **argv)
{
    entry *l = NULL, *e;
    entry e1, e2, e3;
    int i = 0, v[3];
    e1.i = 1;
    e2.i = 2;
    e3.i = 3;

    entry_add(&l, &e1);
    assert(l == &e1);
    assert(l->next == l);
    assert(l->prev == l);

    entry_add(&l, &e2);
    assert(l == &e1);
    assert(l->next == &e2);
    assert(l->prev == &e2);

    entry_add(&l, &e3);
    assert(l == &e1);
    assert(l->next == &e2);
    assert(l->prev == &e3);

    entry_rem(&l, l);
    assert(l == &e2);
    assert(l->next == &e3);
    assert(l->prev == &e3);
    assert(entry_next(&l, l) == &e3);
    assert(entry_prev(&l, l) == NULL);
    assert(entry_next(&l, &e3) == NULL);
    assert(entry_prev(&l, &e3) == &e2);

    for (e = l; e != NULL; e = entry_next(&l, e))
        v[i++] = e->i;
    assert(v[0] == 2);
    assert(v[1] == 3);

    entry_rem(&l, &e3);
    assert(l == &e2);
    entry_rem(&l, l);
    assert(l == NULL);
}
static int array_entry_handler(unsigned idx, const struct json_value *val,
			       void *arg)
{
	struct odict *o = arg;
	char index[64];

	if (re_snprintf(index, sizeof(index), "%u", idx) < 0)
		return ENOMEM;

	return entry_add(o, index, val);
}
Exemple #6
0
static void
process_dents(lx_s *body, struct dirent *dentp, int dbytes)
{
    while (dbytes) {
        if (dentp->d_reclen > dbytes) {
            die_html(HTERR_SERVERR, 0,
                    "dir record is larger than available entry size (fs error?)",
                    err_dir_index);
        }
        if (dentp->d_fileno) entry_add(body, dentp);

        dbytes -= dentp->d_reclen;
        dentp = (struct dirent *)((char *)dentp + dentp->d_reclen);
    }
}
//returns a reversed copy of all the entries that the given entrylist stores
entry* get_reversed_entrylist_copy(entry *source) {
	if (source == NULL) {
		return NULL;	
	}
	
	//initialize a new entrylist and copy the first entry (which is head of the list)
	entry *destination = entrylist_init(source->key);
	destination->values = get_values_copy(source->values, source->length);
	destination->length = source->length;
			
	//copy the rest of the entries from source entry list to destination entrylist 
	entry *currentSourceEntry = source->next;
	while (currentSourceEntry != NULL) {
		destination = entry_add(destination, currentSourceEntry->key);
		destination->values = get_values_copy(currentSourceEntry->values, currentSourceEntry->length);
		destination->length = currentSourceEntry->length;
		
		currentSourceEntry = currentSourceEntry->next;
	}
	
	return destination;
}
Exemple #8
0
int define(buffer_t *buffer, entry_t **list, char *args)
{
	polynomial_t *p = NULL;
	complex_t *z = NULL;
	char **table = NULL, *output = NULL, *input = NULL, *name = NULL;
	char run = 1;
	size_t size = 0, i = 0;

	if (buffer == NULL)
		return EXIT_FAILURE;

	table = split(args, ' ', &size);
	if (table == NULL)
		return EXIT_FAILURE;

	if (size == 1)
	{
		buffer_read(buffer, 0, "Entrez le nom de votre polynome : ");
		name = buffer_get(buffer);

		free(*table);
		free(table);
	}
	else
	{
		name = (char*) malloc(sizeof(table[1]) * sizeof(char));
		strcpy(name, table[1]);

		for (i = 0; i < size; i++)
			free(table[i]);

		free(table);
	}

	p = polynomial_init(name);
	if (p == NULL)
		return EXIT_FAILURE;

	while (run)
	{
		if (p->size == 0)
			fprintf(stdout, "%s(X) = ", p->name);
		else
		{
			polynomial_display(p);
			fprintf(stdout, " + ");
		}

		buffer_read(buffer, 0, NULL);
		input = buffer_get(buffer);

		z = complex_fromString(input);

		if (z != NULL)
		{
			output = complex_toString(z, 0);

			if (p->size == 0)
			{
				if (z->re != 0.0 && z->im != 0.0)
					fprintf(stdout, "%s(X) = (%s) X ^ ", p->name, output);
				else
					fprintf(stdout, "%s(X) = %s X ^ ", p->name, output);
			}
			else
			{
				polynomial_display(p);

				if (z->re != 0.0 && z->im != 0.0)
					fprintf(stdout, " + (%s) X ^ ", output);
				else
					fprintf(stdout, " + (%s) X ^ ", output);
			}

			free(output);

			buffer_read(buffer, 0, NULL);
			input = buffer_get(buffer);

			polynomial_append(p, z, strtoul(input, NULL, 0));
			free(input);

			buffer_read(buffer, 0, "Voulez-vous continuer (oui/non) ? ");
			input = buffer_get(buffer);

			if (!strcmp(input, "non") || !strcmp(input, "n") || !strcmp(input, "N"))
				run = 0;
		}
	}

	entry_add(list, (void*) p, POLYNOMIAL);

	return EXIT_SUCCESS;
}
Exemple #9
0
int integrate(entry_t **list, char *args)
{
	complex_t *z = NULL;
	entry_t *e = NULL;
	polynomial_t *q = NULL;
	size_t size = 0, i = 0;
	char **table = NULL, *c = NULL, count = 0;

	if (list == NULL || args == NULL)
		return EXIT_FAILURE;

	table = split(args, ' ', &size);
	if (table == NULL || size == 1)
	{
		if (table != NULL)
		{
			free(*table);
			free(table);
		}

		return EXIT_FAILURE;
	}

	e = entry_get(*list, table[1]);
	if (e == NULL || e->type != POLYNOMIAL)
	{
		for (i = 0; i < size; i++)
			free(table[i]);

		free(table);

		return EXIT_FAILURE;
	}

	if (size > 2)
	{
		c = args;
		while (count < 2)
		{
			if (*c == ' ')
				count++;

			c++;
		}

		z = complex_fromString(c);
		if (z == NULL)
		{
			for (i = 0; i < size; i++)
				free(table[i]);

			free(table);

			return EXIT_FAILURE;
		}

		q = polynomial_integrate((polynomial_t*) e->polynomial, z);
	}
	else
		q = polynomial_integrate((polynomial_t*) e->polynomial, NULL);

	if (q == NULL)
	{
		if (z != NULL)
			complex_free(z);

		for (i = 0; i < size; i++)
			free(table[i]);

		free(table);

		return EXIT_FAILURE;
	}

	polynomial_display(q);
	fprintf(stdout, "\n");

	entry_add(list, (void*) q, POLYNOMIAL);

	for (i = 0; i < size; i++)
		free(table[i]);

	free(table);

	return EXIT_SUCCESS;
}