/** * CPU build implementation * * @param level */ public void buildCPU(int level) { int prev_level = level - 1; long start_node = 0; long end_node = 0; if (level > 1) { start_node = max_level_id(level - 2) + 1; end_node = max_level_id(level - 1); } m_instance_data.begin(Buffer.READ_WRITE); // find min_max for (int i = 0; i < m_instance_data.rows(); ++i) { int node_id = m_leaf_node_ids[i]; if (!(node_id >= start_node && node_id <= end_node)) throw new RuntimeException("All instances should be in the leaves"); for (int att = 0; att < m_num_attributes; ++att) { int node_offset = node_id * m_num_attributes + att; Buffer attributes = m_instance_data.attributes(); double value = attributes.read((att + i * m_num_attributes) * DirectMemory.DOUBLE_SIZE); double min = m_min_temp[node_offset]; double max = m_max_temp[node_offset]; if (value > max) m_max_temp[node_offset] = value; if (value < min) m_min_temp[node_offset] = value; } } // split by mean of widest dim int split_candidate = -1; double max_range = -1; for (int node = (int) start_node; node <= end_node; ++node) { // 1 thread for (int att = 0; att < m_num_attributes; ++att) { double min_val = m_min_temp[(node * m_num_attributes + att)]; double max_val = m_max_temp[(node * m_num_attributes + att)]; double abs_min_val = m_min_temp[att]; double abs_max_val = m_max_temp[att]; double range = (abs_max_val - abs_min_val); if (range > 0) { double node_range = (max_val - min_val) / range; if (node_range > max_range) { split_candidate = att; max_range = node_range; } } } m_node_split_dim[node] = split_candidate; m_node_split_value[node] = m_min_temp[(node * m_num_attributes + split_candidate)] + max_range / 2; } for (int i = 0; i < m_instance_data.rows(); ++i) { int node_id = m_leaf_node_ids[i]; int split_dim = m_node_split_dim[node_id]; double split_value = m_node_split_value[node_id]; double att_value = m_instance_data .attributes() .read((split_dim + i * m_num_attributes) * DirectMemory.DOUBLE_SIZE); if (att_value > split_value) m_leaf_node_ids[i] = (int) child(node_id) + 1; else m_leaf_node_ids[i] = (int) child(node_id); } m_instance_data.commit(); }
public void sort(Buffer input, Buffer indices) { nativeSort(input, m_temp, indices, m_dst, (int) (indices.byteSize() / DirectMemory.INT_SIZE)); }