uchar *node;
BTreeNodeHeader nh;
- fp = fopen (name.c_str(), "wb");
+ fp = fopen (name.c_str(), "wb+");
if (!fp) {
/* TODO : mandar una exception ? */
return;
/* Inicializo el header */
header.block_size = block_size;
- write_tree_header ();
+ WriteFileHeader ();
/* Creo el primer bloque vacio */
node = new uchar[block_size];
nh.free_space = block_size - sizeof (BTreeNodeHeader);
nh.item_count = 0;
WriteNodoHeader (node, &nh);
- write_block (node, 0);
+ WriteBlock (node, 0);
delete [] node;
}
fclose (fp);
}
-void BTree::write_tree_header ()
+void BTree::WriteFileHeader ()
{
fseek (fp, 0L, SEEK_SET);
fwrite (&header, 1, sizeof (BTreeFileHeader), fp);
}
-void BTree::write_block (uchar *block, uint num)
+void BTree::WriteBlock (uchar *block, uint num)
{
fseek (fp, num*header.block_size + sizeof (BTreeFileHeader), SEEK_SET);
fwrite (block, 1, header.block_size, fp);
}
-void BTree::AddKey (Clave &k)
+void BTree::AddKey (const Clave &k)
{
+ AddKeyR (&k, 0);
+}
+
+Clave* BTree::AddKeyR (const Clave *k, uint node_num)
+{
+ Clave *kout = NULL;
+ std::list<BTreeData> node_keys;
+
/* Leo el nodo raiz para empezar a agregar */
- uchar *root = ReadBlock (0);
- BTreeNodeHeader root_header;
- ReadNodoHeader (root, &root_header);
+ uchar *node = ReadBlock (node_num);
+ BTreeNodeHeader node_header;
+ ReadNodoHeader (node, &node_header);
+
+ BTreeLeafData data (k->Clone ());
+
+ if (node_header.free_space > data.Size ()) {
+ /* TODO : Insertar ordenado */
+ node_keys = ReadKeys (node, node_header);
+ node_keys.push_back (data);
- if (root_header.free_space >= k.Size ()) {
- std::cout << "Hay lugar para meter la clave" << std::endl;
+ WriteKeys (node, node_header, node_keys);
+ WriteNodoHeader (node, &node_header);
+ WriteBlock (node, node_num);
} else {
- std::cout << "__NO__ hay lugar para meter la clave" << std::endl;
+ /* Split */
+ /* Lo que debe pasar :
+ * 1) Separar N/2 claves en "nodo"
+ * 2) Separar N/2-1 claves en un nuevo nodo
+ * 3) kout = clave del medio y mandarla al padre
+ */
+ std::cout << "SPLIT" << std::endl;
+ delete [] node;
}
- delete [] root;
+ return kout;
}
-void BTree::DelKey (Clave &k) {}
+void BTree::DelKey (const Clave &k) {}
void BTree::ReadNodoHeader (uchar *node, BTreeNodeHeader *header)
{
return out;
}
+std::list<BTreeData> BTree::ReadKeys (uchar *node, BTreeNodeHeader &node_header)
+{
+ std::list<BTreeData> keys;
+ node += sizeof (BTreeNodeHeader);
+
+ for (uint i=0; i<node_header.item_count; i++) {
+ /* TODO : El tipo de clave deberia ser usado
+ * dependiendo de algun dato en el header del
+ * arbol
+ */
+ /* TODO : Detectar si estoy en una hoja */
+ BTreeData data;
+ if (node_header.level == 0)
+ data = BTreeLeafData (node);
+ else
+ data = BTreeData (node);
+ node += data.Size ();
+ keys.push_back (data);
+ }
+
+ return keys;
+}
+
+void BTree::WriteKeys (uchar *node, BTreeNodeHeader &node_header, std::list<BTreeData> &keys)
+{
+ std::list<BTreeData>::iterator it = keys.begin ();
+
+ node += sizeof (BTreeNodeHeader);
+
+ node_header.item_count = 0;
+ node_header.free_space = header.block_size - sizeof (BTreeNodeHeader);
+
+ while (it != keys.end ()) {
+ BTreeData d = (*it);
+ memcpy (node, d.ToArray(), d.Size ());
+ node += d.Size ();
+ node_header.free_space -= d.Size ();
+ node_header.item_count++;
+ it++;
+ }
+
+ /* TODO : incrementar node_header.item_count aca o fuera de este metodo? */
+}
+
+void BTree::PrintNode (uint num)
+{
+ uchar *node = ReadBlock (num);
+ BTreeNodeHeader node_header;
+ ReadNodoHeader (node, &node_header);
+
+ std::list<BTreeData> node_keys = ReadKeys (node, node_header);
+ std::list<BTreeData>::iterator it = node_keys.begin ();
+
+ std::cout << "Nodo : " << num << std::endl;
+ std::cout << "Items : " << node_header.item_count << std::endl;
+ std::cout << "Free : " << node_header.free_space << " (" << (header.block_size - sizeof (BTreeNodeHeader)) << ")" << std::endl;
+ while (it != node_keys.end ()) {
+ std::string s = (*it);
+ std::cout << "(" << s << ") ";
+ }
+ std::cout << std::endl;
+}
+