BTree::BTree (const std::string &name, unsigned int block_size, int tt, int kt, bool create_new_file)
{
- key_type = kt;
- tree_type = tt;
uchar *node;
BTreeNodeHeader nh;
/* Inicializo el header */
header.block_size = block_size;
+ header.tree_type = tt;
+ header.key_type = kt;
WriteFileHeader ();
/* Creo el primer bloque vacio */
delete [] node;
}
+BTree::BTree (const std::string &name)
+{
+ /* Leo los bloques recuperables */
+ std::string del = filename + ".del";
+
+ fp = fopen (del.c_str (), "wb");
+ if (fp != NULL) {
+ uint i;
+
+ while (fread (&i, 1, sizeof (uint), fp)) {
+ deleted_nodes.push_back (i);
+ }
+
+ fclose (fp);
+ }
+
+ fp = fopen (name.c_str(), "rb+");
+ if (!fp) {
+ /* TODO : mandar una exception ? */
+ return;
+ }
+ ReadFileHeader ();
+}
+
BTree::~BTree ()
{
fclose (fp);
+
+ std::string del = filename + ".del";
+
+ fp = fopen (del.c_str (), "wb");
+ std::list<uint>::iterator it = deleted_nodes.begin ();
+
+ while (it != deleted_nodes.end ()) {
+ uint i = *it;
+ fwrite (&i, 1, sizeof (uint), fp);
+ it++;
+ }
+
+ fclose (fp);
+}
+
+void BTree::ReadFileHeader ()
+{
+ fseek (fp, 0L, SEEK_SET);
+ fread (&header, 1, sizeof (BTreeFileHeader), fp);
}
void BTree::WriteFileHeader ()
while (it != node_keys.end ()) {
datait = (*it);
- if (tree_type == TYPE_UNIQUE) {
+ if (header.tree_type == TYPE_IDENTIFICACION) {
/* Verifico que la clave no existea ya en el arbol */
if ((*data) == (*datait)) {
throw new AddException ();
while (it != node_keys.end ()) {
BTreeData *datait;
datait = (*it);
- if (tree_type == TYPE_UNIQUE) {
+ if (header.tree_type == TYPE_IDENTIFICACION) {
/* Verifico que la clave no existea ya en el arbol */
if ((*data) == (*datait)) {
throw new AddException ();
posterior = it;
while (it != node_keys.end ()) {
- if (tree_type == TYPE_UNIQUE) {
+ if (header.tree_type == TYPE_IDENTIFICACION) {
/* Verifico que la clave no existea ya en el arbol */
if ((*data) == (*(*it))) {
throw new AddException ();
while (it != node_keys.end ()) {
datait = (*it);
- if (tree_type == TYPE_UNIQUE) {
+ if (header.tree_type == TYPE_IDENTIFICACION) {
/* Verifico que la clave no existea ya en el arbol */
if ((*data) == (*datait)) {
throw new AddException ();
while (it != node_keys.end ()) {
BTreeData *datait;
datait = (*it);
- if (tree_type == TYPE_UNIQUE) {
+ if (header.tree_type == TYPE_IDENTIFICACION) {
/* Verifico que la clave no existea ya en el arbol */
if ((*data) == (*datait)) {
throw new AddException ();
WriteNodoHeader (npadre, &nhp);
WriteBlock (npadre, padre);
- /* TODO: Recuperar nodo1 y nodo2 */
+ deleted_nodes.push_back (node1);
+ deleted_nodes.push_back (node2);
} else {
WriteKeys (n1, nh1, newkeys);
WriteNodoHeader (n1, &nh1);
WriteBlock (n1, node1);
- /* TODO : Recuperar node2 */
+ deleted_nodes.push_back (node2);
+
/* Actualizo punero al padre */
(*anterior)->SetChild (node1);
for (uint i=0; i<count; i++) {
BTreeData *data;
if (node_header.level == 0) {
- data = new BTreeLeafData (node, key_type);
+ data = new BTreeLeafData (node, header.key_type);
} else {
- data = new BTreeData (node, key_type);
+ data = new BTreeData (node, header.key_type);
}
node += data->Size ();
keys.push_back (data);
void BTree::AbrevKey (std::list<BTreeData *> &lst)
{
/* Claves Fijas No se abrevian */
- if (key_type == KEY_FIXED) return;
+ if (header.key_type == KEY_FIXED) return;
BTreeData *primera = NULL;
std::list<BTreeData *>::iterator it = lst.begin ();
void BTree::DeAbrevKey (std::list<BTreeData *> &lst)
{
/* Claves Fijas No se abrevian */
- if (key_type == KEY_FIXED) return;
+ if (header.key_type == KEY_FIXED) return;
BTreeData *primera = NULL;
std::list<BTreeData *>::iterator it = lst.begin ();
uchar *node;
BTreeNodeHeader nh;
- fseek (fp, 0, SEEK_END);
- filelen = ftell (fp);
+ std::list<uint>::iterator it;
- num = filelen/header.block_size - 1;
+ if (deleted_nodes.size ()) {
+ it = deleted_nodes.begin ();
+ num = *it;
+ deleted_nodes.erase (it);
+ } else {
+ fseek (fp, 0, SEEK_END);
+ filelen = ftell (fp);
+ num = filelen/header.block_size - 1;
+ }
node = new uchar[header.block_size];
ReadNodoHeader (node, &nh);
nh.level = 0;
it++;
}
}
+
+int BTree::type () const
+{
+ return header.key_type;
+}