private object BuildArray(JArray o, bool hasDecimal) { if (hasDecimal) //try float, then double, then give up { List <float> sVals = new List <float>(); for (int i = 0; i < o.Count; i++) { JEntity e = o[i]; if (e != null && e is JPrimitive) { JPrimitive p = (JPrimitive)e; if (p.Type == JType.JNumber) { try { sVals.Add(p.ToFloat()); } catch { sVals.Clear(); sVals = null; //just in case a GC run comes along List <double> kVals = new List <double>(); for (int j = 0; j < o.Count; j++) { e = o[j]; if (e != null && e is JPrimitive) { p = (JPrimitive)e; if (p.Type == JType.JNumber) { try { kVals.Add(p.ToDouble()); } catch { return(null); //not an integer type we can handle } } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(kVals.ToArray()); } } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(sVals.ToArray()); } else //try int, then long, then give up { //try ints first, then widen if needed List <int> sVals = new List <int>(); for (int i = 0; i < o.Count; i++) { JEntity e = o[i]; if (e != null && e is JPrimitive) { JPrimitive p = (JPrimitive)e; if (p.Type == JType.JNumber) { try { sVals.Add(p.ToInt()); } catch { if (p.ToString().IndexOf('.') >= 0) { return(null); //not an integer type } else //widen and try longs { sVals.Clear(); sVals = null; //just in case a GC run comes along List <long> kVals = new List <long>(); for (int j = 0; j < o.Count; j++) { e = o[j]; if (e != null && e is JPrimitive) { p = (JPrimitive)e; if (p.Type == JType.JNumber) { try { kVals.Add(p.ToLong()); } catch { return(null); //not an integer type we can handle } } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(kVals.ToArray()); } } } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(sVals.ToArray()); } }
private object BuildArray(JArray o) { JType lookType = JType.JString; if (o.Count > 0) { if (o[0] is JPrimitive) { JPrimitive p = (JPrimitive)o[0]; lookType = p.Type; } } if (lookType == JType.JString) { List <string> sVals = new List <string>(); for (int i = 0; i < o.Count; i++) { JEntity e = o[i]; if (e != null && e is JPrimitive) { JPrimitive p = (JPrimitive)e; if (p.Type == JType.JString) { sVals.Add(p.ToString()); } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(sVals.ToArray()); } else if (lookType == JType.JBool) { List <bool> sVals = new List <bool>(); for (int i = 0; i < o.Count; i++) { JEntity e = o[i]; if (e != null && e is JPrimitive) { JPrimitive p = (JPrimitive)e; if (p.Type == JType.JString) { sVals.Add(p.ToBool()); } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(sVals.ToArray()); } else //number { object res = BuildArray(o, false); if (res == null) { res = BuildArray(o, true); } if (res == null) { return(null); } } return(null); }
private object BuildDictionary(JObject o) { JType lookType = JType.JString; foreach (string s in o.Keys) { JEntity e = o[s]; if (e != null) { if (e is JPrimitive) //only thing currently supported { JPrimitive p = (JPrimitive)e; lookType = p.Type; } else { return(null); //fail fast } break; //end the loop anyway -- only needed to see the type of the first element } return(null); //got a null thing - which shouldn't be in the config } if (lookType == JType.JString) { Dictionary <string, string> sVals = new Dictionary <string, string>(); foreach (string key in o.Keys) { JEntity e = o[key]; if (e != null && e is JPrimitive) { JPrimitive p = (JPrimitive)e; if (p.Type == JType.JString) { sVals.Add(key, p.ToString()); } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(sVals); } else if (lookType == JType.JBool) { Dictionary <string, bool> sVals = new Dictionary <string, bool>(); foreach (string key in o.Keys) { JEntity e = o[key]; if (e != null && e is JPrimitive) { JPrimitive p = (JPrimitive)e; if (p.Type == JType.JBool) { sVals.Add(key, p.ToBool()); } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(sVals); } else //number { object res = BuildDictionary(o, false); if (res == null) { res = BuildDictionary(o, true); } if (res == null) { return(null); } } return(null); }
private object BuildDictionary(JObject o, bool hasDecimal) { if (hasDecimal) //try float, then double, then give up { Dictionary <string, float> sVals = new Dictionary <string, float>(); foreach (string key in o.Keys) { JEntity e = o[key]; if (e != null && e is JPrimitive) { JPrimitive p = (JPrimitive)e; if (p.Type == JType.JNumber) { try { sVals.Add(key, p.ToFloat()); } catch { sVals.Clear(); sVals = null; //just in case a GC run comes along Dictionary <string, double> kVals = new Dictionary <string, double>(); foreach (string key2 in o.Keys) { e = o[key2]; if (e != null && e is JPrimitive) { p = (JPrimitive)e; if (p.Type == JType.JNumber) { try { kVals.Add(key, p.ToDouble()); } catch { return(null); //not an integer type we can handle } } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(kVals); } } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(sVals); } else //try int, then long, then give up { //try ints first, then widen if needed Dictionary <string, int> sVals = new Dictionary <string, int>(); foreach (string key in o.Keys) { JEntity e = o[key]; if (e != null && e is JPrimitive) { JPrimitive p = (JPrimitive)e; if (p.Type == JType.JNumber) { try { sVals.Add(key, p.ToInt()); } catch { if (p.ToString().IndexOf('.') >= 0) { return(null); //not an integer type } else //widen and try longs { sVals.Clear(); sVals = null; //just in case a GC run comes along Dictionary <string, long> kVals = new Dictionary <string, long>(); foreach (string key2 in o.Keys) { e = o[key2]; if (e != null && e is JPrimitive) { p = (JPrimitive)e; if (p.Type == JType.JNumber) { try { kVals.Add(key, p.ToLong()); } catch { return(null); //not an integer type we can handle } } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(kVals); } } } else { return(null); //short circuit early } } else { return(null); //short circuit early } } return(sVals); } }
internal bool Init(string filename) { //format of file is specific for config params JsonReader r = new JsonReader(); JObject o = r.Read(filename); if (o != null) { foreach (string s in o.Keys) //types { JEntity e = o[s]; if (e != null && e is JObject) { Dictionary <string, object> parms = new Dictionary <string, object>(); if (!this.configs.ContainsKey(s)) { this.configs.Add(s, parms); } else { parms = this.configs[s]; } JObject cur = (JObject)e; foreach (string k in cur.Keys) //param names { e = cur[k]; //now it's a param object paramData = null; if (e != null) { if (e is JObject) //treat as dictionary { JObject param = (JObject)e; paramData = BuildDictionary(param); if (paramData != null) { parms[k] = paramData; } else { return(false); } } else if (e is JArray) //as array { JArray param = (JArray)e; paramData = BuildArray(param); if (paramData != null) { parms[k] = paramData; } else { return(false); } } else //JPrimitive { JPrimitive param = (JPrimitive)e; if (param != null) { if (param.Type == JType.JString) { parms[k] = param.ToString(); } else if (param.Type == JType.JNumber) { try { int i = param.ToInt(); parms[k] = i; } catch { try { long l = param.ToLong(); parms[k] = l; } catch { try { float f = param.ToFloat(); parms[k] = f; } catch { try { double d = param.ToDouble(); parms[k] = d; } catch { return(false); } } } } } else if (param.Type == JType.JBool) { parms[k] = param.ToBool(); } } else { return(false); } } } } } else { return(false); //we read it all, or none } } return(true); } return(false); }