/// <summary> /// returns a graph containing events separated by a time less than the given interval /// </summary> /// <param name="maximum_temoral_separation_sec">maximum time between events</param> /// <returns>graph object</returns> public UsageGraph GetCommonSequences(float maximum_temoral_separation_sec) { double maximum_temoral_separation_mS = maximum_temoral_separation_sec * 1000; UsageGraph graph = new UsageGraph(); for (int i = 0; i < Nodes.Count; i++) { UsageNode n = (UsageNode)Nodes[i]; for (int j = 0; j < n.Links.Count; j++) { UsageLink lnk = (UsageLink)n.Links[j]; double duration_mS = lnk.GetAverageDuration(); if (duration_mS < maximum_temoral_separation_mS) { graph.Update(n.Name); graph.Update(lnk.From.Name); graph.Reset(); } } } return(graph); }
/// <summary> /// returns a graph containing events separated by a time less than the given interval /// </summary> /// <param name="maximum_temoral_separation_sec">maximum time between events</param> /// <returns>graph object</returns> public UsageGraph GetCommonSequences(float maximum_temoral_separation_sec) { double maximum_temoral_separation_mS = maximum_temoral_separation_sec * 1000; UsageGraph graph = new UsageGraph(); for (int i = 0; i < Nodes.Count; i++) { UsageNode n = (UsageNode)Nodes[i]; for (int j = 0; j < n.Links.Count; j++) { UsageLink lnk = (UsageLink)n.Links[j]; double duration_mS = lnk.GetAverageDuration(); if (duration_mS < maximum_temoral_separation_mS) { graph.Update(n.Name); graph.Update(lnk.From.Name); graph.Reset(); } } } return (graph); }
/// <summary> /// returns true if the given address is an IP address /// </summary> /// <param name="nameOrAddress">host name or IP address</param> /// <returns>true if the given address is an IP address</returns> private bool isIPAddress(string nameOrAddress) { bool is_ip = true; nameOrAddress = nameOrAddress.Trim(); int i = 0; while ((i < nameOrAddress.Length) && (is_ip)) { char c = Convert.ToChar(nameOrAddress.Substring(i, 1)); if (!((c == '.') || ((c >= 48) && (c <= 57)))) { is_ip = false; } i++; } if (is_ip) { usage.Update(nameOrAddress + " is an IP address, SurveyorVisionClient, isIPAddress"); } else { usage.Update(nameOrAddress + " is not an IP address, SurveyorVisionClient, isIPAddress"); } return(is_ip); }