* It will also store the cluster for future use.
*/
void parse_specific_arguments(ClusterCreationArgs* cluster) override;
- void addProcessingNode(int id);
- void generateDotFile(const std::string& filename = "fatTree.dot") const;
+ void add_processing_node(int id);
+ void generate_dot_file(const std::string& filename = "fatTree.dot") const;
private:
// description of a PGFT (TODO : better doc)
unsigned long levels_ = 0;
- std::vector<unsigned int> lowerLevelNodesNumber_; // number of children by node
- std::vector<unsigned int> upperLevelNodesNumber_; // number of parents by node
- std::vector<unsigned int> lowerLevelPortsNumber_; // ports between each level l and l-1
+ std::vector<unsigned int> num_children_per_node_; // number of children by node
+ std::vector<unsigned int> num_parents_per_node_; // number of parents by node
+ std::vector<unsigned int> num_port_lower_level_; // ports between each level l and l-1
std::map<int, FatTreeNode*> compute_nodes_;
std::vector<FatTreeNode*> nodes_;
std::vector<FatTreeLink*> links_;
- std::vector<unsigned int> nodesByLevel_;
+ std::vector<unsigned int> nodes_by_level_;
ClusterCreationArgs* cluster_ = nullptr;
- void addLink(FatTreeNode* parent, unsigned int parentPort, FatTreeNode* child, unsigned int childPort);
+ void addLink(FatTreeNode* parent, unsigned int parent_port, FatTreeNode* child, unsigned int child_port);
int getLevelPosition(const unsigned int level);
void generateLabels();
void generateSwitches();