Ejemplo n.º 1
0
 private void CheckElementValue(XmlElement ElementSource, string AttributeName, ref float OutValue)
 {
     if (!ElementSource.HasAttribute(AttributeName))
     {
         return;
     }
     OutValue = MM_Converter.ToSingle(ElementSource.Attributes[AttributeName].Value);
 }
Ejemplo n.º 2
0
 /// <summary>
 /// Initialize a new weather station
 /// </summary>
 /// <param name="xE">The XML Element containing the station's ID and lat/long</param>
 public MM_WeatherStation(XmlElement xE)
 {
     if (xE["icao"] != null)
     {
         this.StationID = xE["icao"].InnerText;
     }
     if (xE["lon"] != null && xE["lat"] != null)
     {
         this.LngLat = new PointF(ConvertToSingle(xE["lon"].InnerText), ConvertToSingle(xE["lat"].InnerText));
     }
     if (xE.HasAttribute("StationID"))
     {
         this.StationID = xE.Attributes["StationID"].Value;
     }
     if (xE.HasAttribute("Description"))
     {
         this.Description = (xE.Attributes["Description"].Value);
     }
     if (xE.HasAttribute("Coordinates"))
     {
         this.LngLat = new PointF(MM_Converter.ToSingle(xE.Attributes["Coordinates"].Value.Split(',')[0]), MM_Converter.ToSingle(xE.Attributes["Coordinates"].Value.Split(',')[1]));
     }
     if (xE.HasAttribute("Elevation"))
     {
         this.Elevation = MM_Converter.ToSingle(xE.Attributes["Elevation"].Value);
     }
     if (xE.HasAttribute("Temperature"))
     {
         this.Temperature = MM_Converter.ToSingle(xE.Attributes["Temperature"].Value);
     }
     if (xE.HasAttribute("Humidity"))
     {
         this.Humidity = MM_Converter.ToSingle(xE.Attributes["Humidity"].Value);
     }
     if (xE.HasAttribute("WindDirection"))
     {
         this.WindDirection = xE.Attributes["WindDirection"].Value;
     }
     if (xE.HasAttribute("WindSpeed"))
     {
         this.WindSpeed = MM_Converter.ToSingle(xE.Attributes["WindSpeed"].Value);
     }
     if (xE.HasAttribute("Pressure"))
     {
         this.Pressure = MM_Converter.ToSingle(xE.Attributes["Pressure"].Value);
     }
     if (xE.HasAttribute("Dewpoint"))
     {
         this.Dewpoint = MM_Converter.ToSingle(xE.Attributes["Dewpoint"].Value);
     }
     if (xE.HasAttribute("Summary"))
     {
         this.Summary = (xE.Attributes["Summary"].Value);
     }
 }
Ejemplo n.º 3
0
 /// <summary>
 /// Check an element for its value, and add it in.
 /// </summary>
 /// <param name="ElementSource"></param>
 /// <param name="AttributeName"></param>
 /// <param name="OutValues"></param>
 private void CheckElementValue(XmlElement ElementSource, string AttributeName, ref float[] OutValues)
 {
     if (!ElementSource.HasAttribute(AttributeName))
     {
         return;
     }
     String[] splStr = ElementSource.Attributes[AttributeName].Value.Split(new char[] { ',' }, StringSplitOptions.RemoveEmptyEntries);
     for (int a = 0; a < OutValues.Length; a++)
     {
         OutValues[a] = MM_Converter.ToSingle(splStr[a]);
     }
 }
Ejemplo n.º 4
0
        /// <summary>
        /// Convert a string to a single-precision number
        /// </summary>
        /// <param name="Value"></param>
        /// <returns></returns>
        private float ConvertToSingle(String Value)
        {
            StringBuilder ToReadStr = new StringBuilder();

            foreach (Char c in Value.ToCharArray())
            {
                if (Char.IsNumber(c) || (c == '.'))
                {
                    ToReadStr.Append(c);
                }
            }
            if (ToReadStr.Length == 0)
            {
                return(0f);
            }
            else
            {
                return(MM_Converter.ToSingle(ToReadStr.ToString()));
            }
        }
Ejemplo n.º 5
0
 /// <summary>
 /// Create a new IROL/CSC limit
 /// </summary>
 /// <param name="dr"></param>
 public MM_Limit(DataRow dr)
 {
     this.Name    = MM_Repository.TitleCase((string)dr["ID"]);
     this.Current = MM_Converter.ToSingle(dr["RTOTMW"]);
     this.Max     = MM_Converter.ToSingle(dr["LTOTMW"]);
 }
Ejemplo n.º 6
0
        /*
         * /// <summary>
         * /// Create a new boundary (from an XML element)
         * /// </summary>
         * /// <param name="xE">The element containing boundary information</param>
         * public MM_Boundary(XmlElement xE)
         * {
         *  this.Name = xE.Attributes["Name"].Value;
         *  this.Max = new PointF(MM_Converter.ToSingle(xE.Attributes["Max_X"].Value), MM_Converter.ToSingle(xE.Attributes["Max_Y"].Value));
         *  this.Min = new PointF(MM_Converter.ToSingle(xE.Attributes["Min_X"].Value), MM_Converter.ToSingle(xE.Attributes["Min_Y"].Value));
         *  this.Centroid = new PointF(MM_Converter.ToSingle(xE.Attributes["Centroid_X"].Value), MM_Converter.ToSingle(xE.Attributes["Centroid_Y"].Value));
         *  if (xE.HasAttribute("Boundary_Website"))
         *      this.Website = xE.Attributes["Boundary_Website"].Value;
         *
         *  String[] splCoords;
         *  if (xE["Coordinates"] == null)
         *      splCoords = xE.InnerText.Split(new char[] { ',' }, StringSplitOptions.RemoveEmptyEntries);
         *  else
         *      splCoords = xE["Coordinates"].InnerText.Split(new char[] { ',' }, StringSplitOptions.RemoveEmptyEntries);
         *  Coordinates = new PointF[splCoords.Length / 2];
         *  List<PointF> ConvertedPoints = new List<PointF>(Coordinates.Length);
         *
         #if LimitedCoordinates
         *  List<PointF> NewPoints = new List<PointF>();
         *  int NumDecPlaces = 3;
         *  for (int a = 0; a < splCoords.Length; a += 2)
         *  {
         *      PointF ThisPoint = RoundedPoint(splCoords[a], splCoords[a + 1], NumDecPlaces);
         *      if (NewPoints.Count == 0 || ThisPoint.X != NewPoints[NewPoints.Count - 1].X || ThisPoint.Y != NewPoints[NewPoints.Count - 1].Y)
         *      {
         *          NewPoints.Add(ThisPoint);
         *          ConvertedPoints.Add(new PointF(ThisPoint.X * 1000f, ThisPoint.Y * 1000f));
         *      }
         *  }
         *  Coordinates = NewPoints.ToArray();
         *
         #else
         *  for (int a = 0; a < Coordinates.Length; a++)
         *  {
         *      Coordinates[a] = new PointF(MM_Converter.ToSingle(splCoords[a * 2]), MM_Converter.ToSingle(splCoords[(a * 2) + 1]));
         *      ConvertedPoints.Add(new PointF(Coordinates[a].X * 1000f, Coordinates[a].Y * 1000f));
         *  }
         #endif
         *  HitTestPath.AddLines(ConvertedPoints.ToArray());
         *  ConvertedPoints.Clear();
         *
         *  WeatherAlerts = new List<string>(xE.SelectNodes("WeatherAlert").Count);
         *  WeatherForecast = new Dictionary<string, string>(xE.SelectNodes("WeatherForecast").Count);
         *  WeatherStations = new List<MM_WeatherStation>(xE.SelectNodes("WeatherStation").Count);
         *
         *  foreach (XmlNode xE2 in xE.ChildNodes)
         *      if (xE2 is XmlElement == false)
         *      { }
         *      else if (xE2.Name == "WeatherAlert")
         *          WeatherAlerts.Add((xE2.Attributes["Value"].Value));
         *      else if (xE2.Name == "WeatherForecast")
         *          WeatherForecast.Add((xE2.Attributes["Name"].Value), (xE2.Attributes["Value"].Value));
         *      else if (xE2.Name == "WeatherStation")
         *          this.WeatherStations.Add(new MM_WeatherStation(xE2 as XmlElement));
         *
         *
         *
         * }*/

        /// <summary>
        /// Convert a string to a rounded decimal point
        /// </summary>
        /// <param name="X">The X coordinate</param>
        /// <param name="Y">The Y coordinate</param>
        /// <param name="NumDecPlaces">The number of decimal places</param>
        /// <returns></returns>
        private PointF RoundedPoint(string X, string Y, int NumDecPlaces)
        {
            return(new PointF((float)Math.Round(MM_Converter.ToSingle(X), NumDecPlaces), (float)Math.Round(MM_Converter.ToSingle(Y), NumDecPlaces)));
        }
Ejemplo n.º 7
0
        /// <summary>
        /// Initialize a new boundary
        /// </summary>
        /// <param name="xE"></param>
        /// <param name="AddIfNew">Whether to add any new elements that may be created</param>
        public MM_Boundary(XmlElement xE, bool AddIfNew)
            : base(xE, AddIfNew)
        {
            //Because of an issue where some boundaries contain multiple substations of the same TEID, fix it here.
            Dictionary <Int32, MM_Substation> Subs = new Dictionary <Int32, MM_Substation>(Substations.Count);

            foreach (MM_Substation Sub in this.Substations)
            {
                if (!Subs.ContainsKey(Sub.TEID))
                {
                    Subs.Add(Sub.TEID, Sub);
                }
            }
            Substations.Clear();
            Substations.AddRange(Subs.Values);

            if (xE.HasAttribute("Max_X"))
            {
                this.Max      = new PointF(MM_Converter.ToSingle(xE.Attributes["Max_X"].Value), MM_Converter.ToSingle(xE.Attributes["Max_Y"].Value));
                this.Min      = new PointF(MM_Converter.ToSingle(xE.Attributes["Min_X"].Value), MM_Converter.ToSingle(xE.Attributes["Min_Y"].Value));
                this.Centroid = new PointF(MM_Converter.ToSingle(xE.Attributes["Centroid_X"].Value), MM_Converter.ToSingle(xE.Attributes["Centroid_Y"].Value));
            }
            if (xE.HasAttribute("Boundary_Website"))
            {
                this.Website = xE.Attributes["Boundary_Website"].Value;
            }

            if (xE.HasAttribute("Coordinates") || xE["Coordinates"] != null)
            {
                String[] Coords = null;
                if (xE["Coordinates"] != null)
                {
                    Coords = xE["Coordinates"].InnerText.Split(new char[] { ',' }, StringSplitOptions.RemoveEmptyEntries);
                }
                else
                {
                    Coords = xE.Attributes["Coordinates"].InnerText.Split(new char[] { ',' }, StringSplitOptions.RemoveEmptyEntries);
                }
                List <PointF> OutCoordinates          = new List <PointF>();
                List <PointF> OutConvertedCoordinates = new List <PointF>();
                for (int a = 0; a < Coords.Length; a += 2)
                {
                    PointF OutPt = new PointF(MM_Converter.ToSingle(Coords[a]), MM_Converter.ToSingle(Coords[a + 1]));
                    OutCoordinates.Add(OutPt);
                    OutConvertedCoordinates.Add(new PointF(OutPt.X * 1000f, OutPt.Y * 1000f));
                }

                //Now make sure the last coordiante closes it out.
                if (OutCoordinates[OutCoordinates.Count - 1].Equals(OutCoordinates[0]) == false)
                {
                    OutCoordinates.Add(OutCoordinates[0]);
                    OutConvertedCoordinates.Add(OutConvertedCoordinates[0]);
                }
                Coordinates = OutCoordinates;
                HitTestPath.AddLines(OutConvertedCoordinates.ToArray());
            }
            else
            {
                List <PointF> OutConvertedCoordinates = new List <PointF>();
                foreach (PointF OutPt in Coordinates)
                {
                    OutConvertedCoordinates.Add(new PointF(OutPt.X * 1000f, OutPt.Y * 1000f));
                }
                try
                {
                    HitTestPath.AddLines(OutConvertedCoordinates.ToArray());
                } catch (Exception ex)
                {
                    MM_System_Interfaces.LogError(ex);
                }
            }
        }