private GeoLatLng ComputeFormDir(GeoLatLng pt1, double distance, double crs)
{
//get select values
double lat2, lon2;
/* Input and validate data */
double lat1 = pt1.LatRadians();
double lon1 = -pt1.LngRadians();
double d12 = distance;
double dc = _currentUnit == UNIT_NM ? 1 : 1.852;
d12 /= dc;
double crs12 = crs * MathEx.PI / 180.0;
if (_currentEarthMode == EARTH_MODEL_SPHERE)
{
// spherical code
d12 /= (180 * 60 / MathEx.PI); // in radians
DirectResult cd = Direct(lat1, lon1, crs12, d12);
lat2 = cd._lat * (180 / MathEx.PI);
lon2 = cd._lon * (180 / MathEx.PI);
}
else
{
// elliptic code// ellipse uses East negative
DirectResult cde = DirectEll(lat1, -lon1, crs12, d12, _currentEarthMode);
lat2 = cde._lat * (180 / MathEx.PI);
lon2 = -cde._lon * (180 / MathEx.PI);// ellipse uses East negative
}
double retLat = lat2;
double retLon = -lon2;
return(new GeoLatLng(retLat, retLon));
}
private CrsdistResult ComputeFormCD(GeoLatLng pt1, GeoLatLng pt2)
{
double d, crs12, crs21;
CrsdistResult outValue = new CrsdistResult();
double lat1 = pt1.LatRadians();
double lat2 = pt2.LatRadians();
double lon1 = -pt1.LngRadians();
double lon2 = -pt2.LngRadians();
double dc = _currentUnit == UNIT_NM ? 1 : 1.852;
if (_currentEarthMode == EARTH_MODEL_SPHERE)
{
// spherical code// compute crs and Distance
CrsdistResult cd = Crsdist(lat1, lon1, lat2, lon2);
crs12 = cd._crs12 * (180 / MathEx.PI);
crs21 = cd._crs21 * (180 / MathEx.PI);
d = cd._d * (180 / MathEx.PI) * 60 * dc; // go to physical units
}
else
{
// elliptic code // ellipse uses East negative
CrsdistResult cde = CrsdistEll(lat1, -lon1, lat2, -lon2, _currentEarthMode);
crs12 = cde._crs12 * (180 / MathEx.PI);
crs21 = cde._crs21 * (180 / MathEx.PI);
d = cde._d * dc; // go to physical units
}
outValue._crs12 = crs12;
outValue._crs21 = crs21;
outValue._d = d;
return(outValue);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Calculate the Distance between two point in great circle.
* @param pt1 the first location.
* @param pt2 the second location.
* @return the Distance and course between the 2 point.
*/
internal GeoLatLng CalculateDistanceAndCourse(GeoLatLng pt1, GeoLatLng pt2)
{
CrsdistResult ret = ComputeFormCD(pt1, pt2);
GeoLatLng ret1 = new GeoLatLng(ret._crs12, ret._d);
return(ret1);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Copy constructor.
* @param mapPoint map object copy from.
*/
public MapPoint(MapPoint mapPoint)
: base(mapPoint)
{
SetMapObjectType(POINT);
SymbolType = new MapSymbol(mapPoint.SymbolType);
Point = new GeoLatLng(mapPoint.Point);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Returns the Distance, in meters, from this point to the given point.
* By default, this Distance is calculated given the default equatorial
* earth radius of 6378137 meters. The earth is approximated as a sphere,
* hence the Distance could be off as much as 0.3%,
* especially in the polar extremes.
* @param pt1 the first point.
* @param pt2 the other point.
* @return the Distance, in kilo meters.
*/
public static double Distance(GeoLatLng pt1, GeoLatLng pt2)
{
GreateCircleCalculator cal = new GreateCircleCalculator(
GreateCircleCalculator.EARTH_MODEL_WGS84,
GreateCircleCalculator.UNIT_KM);
return(cal.CalculateDistance(pt1, pt2));
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Returns the Distance, in meters, from this point to the given point.
* By default, this Distance is calculated given the default equatorial
* earth radius of 6378137 meters. The earth is approximated as a sphere,
* hence the Distance could be off as much as 0.3%,
* especially in the polar extremes.
* @param other the other point.
* @return the Distance, in meters.
*/
public double DistanceFrom(GeoLatLng other)
{
GreateCircleCalculator cal = new GreateCircleCalculator(
GreateCircleCalculator.EARTH_MODEL_WGS84,
GreateCircleCalculator.UNIT_KM);
return(cal.CalculateDistance(this, other));
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Copy constructor.
* @param region map object copy from.
*/
public MapRegion(MapRegion region)
: base(region)
{
SetMapObjectType(REGION);
PenStyle = new MapPen(region.PenStyle);
BrushStyle = new MapBrush(region.BrushStyle);
Region = new GeoPolygon(region.Region);
CenterPt = new GeoLatLng(region.CenterPt);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Determines whether or not two points are equal. Two instances of
* <code>GeoLatLng</code> are equal if the values of their
* <code>X</code> and <code>Y</code> member fields, representing
* their position in the coordinate space, are the same.
* @param obj an object to be compared with this <code>GeoLatLng</code>
* @return <code>true</code> if the object to be compared is
* an instance of <code>GeoLatLng</code> and has
* the same values; <code>false</code> otherwise.
*/
public new bool Equals(Object obj)
{
if (obj is GeoLatLng)
{
GeoLatLng p2D = (GeoLatLng)obj;
return((GetX() == p2D.GetX()) && (GetY() == p2D.GetY()));
}
return(base.Equals(obj));
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Creates a polygon from an array of vertices. The weight is the Width of
* the line in pixels. The opacity is given as a number between 0 and 1.
* The line will be antialiased and semitransparent.
* @param _latlngs array of points.
* @param _strokeColor the color of the polygon stroke.
* @param _strokeWeight the Width of the polygon stroke.
* @param _strokeOpacity the opacity of the polygon stroke.
* @param _fillColor the inner color of the polygon.
* @param _fillOpacity the inner opacity of the polygon.
*/
public GeoPolygon(GeoLatLng[] latlngs, int strokeColor, int strokeWeight,
double strokeOpacity, int fillColor, double fillOpacity)
{
if (latlngs != null)
{
_latlngs = new GeoLatLng[latlngs.Length];
Array.Copy(latlngs, 0, _latlngs, 0, latlngs.Length);
_levels = new int[latlngs.Length];
for (int i = 0; i < _levels.Length; i++)
{
_levels[i] = 0;
}
double maxlat = 0, minlat = 0, maxlon = 0, minlon = 0;
GeoLatLng[] points = _latlngs;
for (int i = 0; i < points.Length; i++)
{
// determin _bounds (Max/Min Lat/lon)
if (i == 0)
{
maxlat = minlat = points[i].Lat();
maxlon = minlon = points[i].Lng();
}
else
{
if (points[i].Lat() > maxlat)
{
maxlat = points[i].Lat();
}
else if (points[i].Lat() < minlat)
{
minlat = points[i].Lat();
}
else if (points[i].Lng() > maxlon)
{
maxlon = points[i].Lng();
}
else if (points[i].Lng() < minlon)
{
minlon = points[i].Lng();
}
}
}
GeoLatLng sw, ne;
sw = new GeoLatLng(minlat, minlon);
ne = new GeoLatLng(maxlat, maxlon);
_bounds = new GeoLatLngBounds(sw, ne);
}
_strokeColor = strokeColor;
_strokeOpacity = strokeOpacity;
_strokeWeight = strokeWeight;
_fillColor = fillColor;
_fillOpacity = fillOpacity;
_zoomFactor = 1;
_numLevels = 0;
_visible = true;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Copy constructor.
* @param mapPoints map object copy from.
*/
public MapMultiPoint(MapMultiPoint mapPoints)
: base(mapPoints)
{
SetMapObjectType(MULTIPOINT);
SymbolType = new MapSymbol(mapPoints.SymbolType);
Points = new GeoLatLng[mapPoints.Points.Length];
for (int i = 0; i < Points.Length; i++)
{
Points[i] = new GeoLatLng(mapPoints.Points[i]);
}
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Creates a polyline from an array of vertices. The _weight is the Width of
* the line in pixels. The _opacity is given as a number between 0 and 1.
* The line will be antialiased and semitransparent.
* @param _latlngs array of points.
* @param _color the _color of the polyline.
* @param _weight the Width of the polyline.
* @param _opacity the _opacity of the polyline.
*/
public GeoPolyline(GeoLatLng[] latlngs, int color, int weight,
double opacity)
{
if (latlngs != null)
{
_latlngs = new GeoLatLng[latlngs.Length];
Array.Copy(latlngs, 0, _latlngs, 0, latlngs.Length);
_levels = new int[latlngs.Length];
for (int i = 0; i < _levels.Length; i++)
{
_levels[i] = 0;
}
double maxlat = 0, minlat = 0, maxlon = 0, minlon = 0;
GeoLatLng[] points = _latlngs;
for (int i = 0; i < points.Length; i++)
{
// determin bounds (Max/Min Lat/lon)
if (i == 0)
{
maxlat = minlat = points[i].Lat();
maxlon = minlon = points[i].Lng();
}
else
{
if (points[i].Lat() > maxlat)
{
maxlat = points[i].Lat();
}
else if (points[i].Lat() < minlat)
{
minlat = points[i].Lat();
}
else if (points[i].Lng() > maxlon)
{
maxlon = points[i].Lng();
}
else if (points[i].Lng() < minlon)
{
minlon = points[i].Lng();
}
}
}
GeoLatLng sw = new GeoLatLng(minlat, minlon);
GeoLatLng ne = new GeoLatLng(maxlat, maxlon);
_bounds = new GeoLatLngBounds(sw, ne);
}
_color = color;
_weight = weight;
_opacity = opacity;
ZoomFactor = 1;
NumLevels = 0;
_visible = true;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Copy constructor.
* @param multiRegion map object copy from.
*/
public MapMultiRegion(MapMultiRegion multiRegion)
: base(multiRegion)
{
SetMapObjectType(MULTIREGION);
PenStyle = new MapPen(multiRegion.PenStyle);
BrushStyle = new MapBrush(multiRegion.BrushStyle);
Regions = new GeoPolygon[multiRegion.Regions.Length];
for (int i = 0; i < Regions.Length; i++)
{
Regions[i] = new GeoPolygon(multiRegion.Regions[i]);
}
CenterPt = new GeoLatLng(multiRegion.CenterPt);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Returns the length (in meters) of the polyline along the surface of a
* spherical Earth
* @return the length (in meters) of the polyline.
*/
public int GetLength()
{
int len = 0;
if (_latlngs != null)
{
double length = 0;
GeoLatLng pt1 = new GeoLatLng(_latlngs[0].Lat(), _latlngs[0].Lng());
for (int i = 1; i < _latlngs.Length; i++)
{
GeoLatLng pt2 = new GeoLatLng(_latlngs[i].Lat(), _latlngs[i].Lng());
length += pt1.DistanceFrom(pt2);
pt1 = pt2;
}
len = (int)(length * 1000.0 + 0.5);
}
return(len);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Creates a polyline from encoded strings of aggregated points and levels.
* ZoomFactor and NumLevels these two values determine the precision
* of the levels within an encoded polyline.
* @param _color the _color of the polyline.
* @param _weight Width of the line in pixels.
* @param _opacity the _opacity of the polyline.
* @param points a string containing the encoded latitude and longitude
* coordinates.
* @param ZoomFactor the magnification between adjacent sets of zoom levels
* in the encoded levels string.
* @param levels a string containing the encoded polyline zoom level groups.
* @param NumLevels the number of zoom levels contained in the encoded
* levels string.
* @return Geo polyline object.
*/
public static GeoPolyline FromEncoded(int color, int weight, double opacity,
String points, int zoomFactor, String levels, int numLevels)
{
ArrayList trk = PolylineEncoder.CreateDecodings(points);
GeoLatLng[] array = new GeoLatLng[trk.Count];
var temp = trk.ToArray();
for (int i = 0; i < temp.Length; i++)
{
array[i] = (GeoLatLng)temp[i];
}
GeoPolyline polyline = new GeoPolyline(array, color, weight, opacity);
polyline._levels = PolylineEncoder.DecodeLevel(levels);
polyline.ZoomFactor = zoomFactor;
polyline.NumLevels = numLevels;
return(polyline);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* copy constructor.
* @param pline pline object copied from.
*/
public GeoPolyline(GeoPolyline pline)
{
if (pline._latlngs != null)
{
_latlngs = new GeoLatLng[pline._latlngs.Length];
Array.Copy(_latlngs, 0, _latlngs, 0, _latlngs.Length);
_levels = new int[pline._levels.Length];
for (int i = 0; i < _levels.Length; i++)
{
_levels[i] = pline._levels[i];
}
_bounds = new GeoLatLngBounds(pline._bounds);
}
_color = pline._color;
_weight = pline._weight;
_opacity = pline._opacity;
ZoomFactor = pline.ZoomFactor;
NumLevels = pline.NumLevels;
_visible = pline._visible;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Creates a polygon from encoded strings of aggregated points and _levels.
* _zoomFactor and _numLevels these two values determine the precision
* of the _levels within an encoded polygon.
* @param _strokeColor the color of the polygon.
* @param _strokeWeight Width of the line in pixels.
* @param _strokeOpacity the opacity of the polygon.
* @param _fillColor the inner color of the polygon.
* @param _fillOpacity the inner opacity of the polygon.
* @param points a string containing the encoded latitude and longitude
* coordinates.
* @param _zoomFactor the magnification between adjacent sets of zoom _levels
* in the encoded _levels string.
* @param _levels a string containing the encoded polygon zoom level groups.
* @param _numLevels the number of zoom _levels contained in the encoded _levels string.
* @return Geo polygon object.
*/
public static GeoPolygon FromEncoded(int strokeColor, int strokeWeight,
double strokeOpacity, int fillColor, double fillOpacity,
String points, int zoomFactor, String levels, int numLevels)
{
ArrayList trk = PolylineEncoder.CreateDecodings(points);
GeoLatLng[] array = new GeoLatLng[trk.Count];
var temp = trk.ToArray();
for (int i = 0; i < temp.Length; i++)
{
array[i] = (GeoLatLng)temp[i];
}
GeoPolygon polygon = new GeoPolygon(array, strokeColor, strokeWeight, strokeOpacity,
fillColor, fillOpacity);
polygon._levels = PolylineEncoder.DecodeLevel(levels);
polygon._zoomFactor = zoomFactor;
polygon._numLevels = numLevels;
return(polygon);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* copy constructor.
* @param polygon polygon object copied from.
*/
public GeoPolygon(GeoPolygon polygon)
{
if (polygon._latlngs != null)
{
_latlngs = new GeoLatLng[polygon._latlngs.Length];
Array.Copy(_latlngs, 0, _latlngs, 0, _latlngs.Length);
_levels = new int[polygon._levels.Length];
for (int i = 0; i < _levels.Length; i++)
{
_levels[i] = polygon._levels[i];
}
_bounds = new GeoLatLngBounds(polygon._bounds);
}
_strokeColor = polygon._strokeColor;
_strokeOpacity = polygon._strokeOpacity;
_strokeWeight = polygon._strokeWeight;
_fillColor = polygon._fillColor;
_fillOpacity = polygon._fillOpacity;
_zoomFactor = polygon._zoomFactor;
_numLevels = polygon._numLevels;
_visible = polygon._visible;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Calculate the Distance between two point in great circle.
* @param pt1 the first location.
* @param pt2 the second location.
* @return the Distance and course between the 2 point.
*/
internal GeoLatLng CalculateDistanceAndCourse(GeoLatLng pt1, GeoLatLng pt2)
{
CrsdistResult ret = ComputeFormCD(pt1, pt2);
GeoLatLng ret1 = new GeoLatLng(ret._crs12, ret._d);
return ret1;
}
private CrsdistResult ComputeFormCD(GeoLatLng pt1, GeoLatLng pt2)
{
double d, crs12, crs21;
CrsdistResult outValue = new CrsdistResult();
double lat1 = pt1.LatRadians();
double lat2 = pt2.LatRadians();
double lon1 = -pt1.LngRadians();
double lon2 = -pt2.LngRadians();
double dc = _currentUnit == UNIT_NM ? 1 : 1.852;
if (_currentEarthMode == EARTH_MODEL_SPHERE)
{
// spherical code// compute crs and Distance
CrsdistResult cd = Crsdist(lat1, lon1, lat2, lon2);
crs12 = cd._crs12 * (180 / MathEx.PI);
crs21 = cd._crs21 * (180 / MathEx.PI);
d = cd._d * (180 / MathEx.PI) * 60 * dc; // go to physical units
}
else
{
// elliptic code // ellipse uses East negative
CrsdistResult cde = CrsdistEll(lat1, -lon1, lat2, -lon2, _currentEarthMode);
crs12 = cde._crs12 * (180 / MathEx.PI);
crs21 = cde._crs21 * (180 / MathEx.PI);
d = cde._d * dc; // go to physical units
}
outValue._crs12 = crs12;
outValue._crs21 = crs21;
outValue._d = d;
return outValue;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Computes the pixel coordinates of the given geographical point in the map.
* @param latlng the geographical coordinates.
* @return the pixel coordinates in the map.
*/
public GeoPoint FromLatLngToMapPixel(GeoLatLng latlng)
{
GeoPoint center = FromLatLngToPixel(_mapCenterPt, _mapZoomLevel);
GeoPoint topLeft = new GeoPoint(center.X - _mapSize.Width / 2.0,
center.Y - _mapSize.Height / 2.0);
GeoPoint pointPos = FromLatLngToPixel(latlng, _mapZoomLevel);
pointPos.X -= topLeft.X;
pointPos.Y -= topLeft.Y;
return new GeoPoint((int)(pointPos.X + 0.5), (int)(pointPos.Y + 0.5));
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Returns the length (in meters) of the polyline along the surface of a
* spherical Earth
* @return the length (in meters) of the polyline.
*/
public int GetLength()
{
int len = 0;
if (_latlngs != null)
{
double length = 0;
GeoLatLng pt1 = new GeoLatLng(_latlngs[0].Lat(), _latlngs[0].Lng());
for (int i = 1; i < _latlngs.Length; i++)
{
GeoLatLng pt2 = new GeoLatLng(_latlngs[i].Lat(), _latlngs[i].Lng());
length += pt1.DistanceFrom(pt2);
pt1 = pt2;
}
len = (int)(length * 1000.0 + 0.5);
}
return len;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 21JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* draw a map object.
* @param mapObject the map object to be drawing.
* @param drawBoundary the drawing boundry.
* @param zoomLevel the current zoomLevel.
*/
public override void DrawMapObject(MapObject mapObject, GeoLatLngBounds drawBoundary,
int zoomLevel)
{
GeoLatLng drawPt = new GeoLatLng();
_sutherlandHodgman = new SutherlandHodgman(drawBoundary);
_mapZoomLevel = zoomLevel;
_mapCenterPt.X = drawBoundary.GetCenterX();
_mapCenterPt.Y = drawBoundary.GetCenterY();
bool pointFound = false;
switch (mapObject.GetMapObjectType())
{
case MapObject.NONE:
break;
case MapObject.POINT:
{
MapPoint mapPoint = (MapPoint)mapObject;
DrawPoint(mapPoint);
drawPt.X = mapPoint.Point.X;
drawPt.Y = mapPoint.Point.Y;
pointFound = true;
}
break;
case MapObject.MULTIPOINT:
{
MapMultiPoint mapMultiPoint = (MapMultiPoint)mapObject;
for (int i = 0; i < mapMultiPoint.Points.Length; i++)
{
MapPoint mapPoint = new MapPoint
{
SymbolType = mapMultiPoint.SymbolType,
Point = new GeoLatLng(mapMultiPoint.Points[i])
};
DrawPoint(mapPoint);
}
for (int i = 0; i < mapMultiPoint.Points.Length; i++)
{
if (drawBoundary.Contains(mapMultiPoint.Points[i]))
{
drawPt.X = mapMultiPoint.Points[i].X;
drawPt.Y = mapMultiPoint.Points[i].Y;
pointFound = true;
break;
}
}
}
break;
case MapObject.PLINE:
{
MapPline mapPline = (MapPline)mapObject;
DrawPline(mapPline.PenStyle, mapPline.Pline);
for (int i = 0; i < mapPline.Pline.GetVertexCount(); i++)
{
if (drawBoundary.Contains(mapPline.Pline.GetVertex(i)))
{
drawPt.X = mapPline.Pline.GetVertex(i).X;
drawPt.Y = mapPline.Pline.GetVertex(i).Y;
pointFound = true;
break;
}
}
}
break;
case MapObject.MULTIPLINE:
{
MapMultiPline mapMultiPline = (MapMultiPline)mapObject;
for (int i = 0; i < mapMultiPline.Plines.Length; i++)
{
DrawPline(mapMultiPline.PenStyle,
mapMultiPline.Plines[i]);
for (int j = 0; j < mapMultiPline.Plines[i].GetVertexCount(); j++)
{
if (drawBoundary.Contains(mapMultiPline.Plines[i].GetVertex(j)))
{
drawPt.X = mapMultiPline.Plines[i].GetVertex(j).X;
drawPt.Y = mapMultiPline.Plines[i].GetVertex(j).Y;
pointFound = true;
break;
}
}
}
}
break;
case MapObject.REGION:
{
MapRegion mapRegion = (MapRegion)mapObject;
DrawRegion(mapRegion.PenStyle, mapRegion.BrushStyle,
mapRegion.Region);
drawPt.X = mapRegion.CenterPt.X;
drawPt.Y = mapRegion.CenterPt.Y;
pointFound = true;
}
break;
case MapObject.MULTIREGION:
{
MapMultiRegion mapMultiRegion = (MapMultiRegion)mapObject;
for (int i = 0; i < mapMultiRegion.Regions.Length; i++)
{
DrawRegion(mapMultiRegion.PenStyle,
mapMultiRegion.BrushStyle,
mapMultiRegion.Regions[i]);
}
drawPt.X = mapMultiRegion.CenterPt.X;
drawPt.Y = mapMultiRegion.CenterPt.Y;
pointFound = true;
}
break;
case MapObject.COLLECTION:
{
MapCollection mapCollection = (MapCollection)mapObject;
if (mapCollection.MultiRegion != null)
{
MapMultiRegion mapMultiRegion = mapCollection.MultiRegion;
for (int i = 0; i < mapMultiRegion.Regions.Length; i++)
{
DrawRegion(mapMultiRegion.PenStyle,
mapMultiRegion.BrushStyle,
mapMultiRegion.Regions[i]);
}
}
if (mapCollection.MultiPline != null)
{
MapMultiPline mapMultiPline = mapCollection.MultiPline;
for (int i = 0; i < mapMultiPline.Plines.Length; i++)
{
DrawPline(mapMultiPline.PenStyle,
mapMultiPline.Plines[i]);
}
}
if (mapCollection.MultiPoint != null)
{
MapMultiPoint mapMultiPoint = mapCollection.MultiPoint;
for (int i = 0; i < mapMultiPoint.Points.Length; i++)
{
MapPoint mapPoint = new MapPoint
{
SymbolType = mapMultiPoint.SymbolType,
Point = new GeoLatLng(mapMultiPoint.Points[i])
};
DrawPoint(mapPoint);
}
}
pointFound = true;
drawPt.X = mapCollection.Bounds.X + mapCollection.Bounds.Width / 2;
drawPt.Y = mapCollection.Bounds.Y + mapCollection.Bounds.Height / 2;
}
break;
case MapObject.TEXT:
{
MapText mapText = (MapText)mapObject;
drawPt.X = mapText.Point.X;
drawPt.Y = mapText.Point.Y;
pointFound = true;
}
break;
}
if (!mapObject.Name.ToLower().Equals("unknown") && pointFound)
{
MapText mapName = new MapText {Font = _font};
mapName.SetForeColor(_fontColor);
mapName.TextString = mapObject.Name;
GeoPoint screenPt = FromLatLngToMapPixel(drawPt);
mapName.Point.X = screenPt.X;
mapName.Point.Y = screenPt.Y;
mapName.Bounds.X = mapName.Point.X;
mapName.Bounds.Y = mapName.Point.Y;
if (_font != null)
{
mapName.Bounds.Height = IMAGE_PATERN_WIDTH;
mapName.Bounds.Width = _font.CharsWidth(mapObject.Name.ToCharArray(), 0,
mapObject.Name.ToCharArray().Length);
}
AddMapName(mapName);
}
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* default constructor.
*/
public MapRegion()
{
SetMapObjectType(REGION);
PenStyle = new MapPen();
BrushStyle = new MapBrush();
CenterPt = new GeoLatLng();
Region = null;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Changes the center point of the map to the given point.
* @param center a new center point of the map.
*/
public override void PanTo(GeoLatLng center)
{
lock (_mapLayers)
{
for (int i = 0; i < _mapLayers.Count; i++)
{
MapLayer mapLayer = (MapLayer)_mapLayers[i];
mapLayer.PanTo(center);
}
}
base.PanTo(center);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Empty constructor.
*/
public MapText()
{
SetMapObjectType(TEXT);
Point = new GeoLatLng();
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Set the location of the map points.
* @param pts the location
*/
public void SetPoint(GeoLatLng[] pts)
{
Points = pts;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Constructs and initializes a point with the same location as
* the specified <code>GeoLatLng</code> object.
* @param p a point
*/
public GeoLatLng(GeoLatLng p)
: this(p.Lat(), p.Lng())
{
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 03JAN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Empty constructor.
*/
public MapPoint()
{
SetMapObjectType(POINT);
SymbolType = new MapSymbol();
Point = new GeoLatLng();
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Creates a polyline from an array of vertices. The _weight is the Width of
* the line in pixels. The _opacity is given as a number between 0 and 1.
* The line will be antialiased and semitransparent.
* @param _latlngs array of points.
* @param _color the _color of the polyline.
* @param _weight the Width of the polyline.
* @param _opacity the _opacity of the polyline.
*/
public GeoPolyline(GeoLatLng[] latlngs, int color, int weight,
double opacity)
{
if (latlngs != null)
{
_latlngs = new GeoLatLng[latlngs.Length];
Array.Copy(latlngs, 0, _latlngs, 0, latlngs.Length);
_levels = new int[latlngs.Length];
for (int i = 0; i < _levels.Length; i++)
{
_levels[i] = 0;
}
double maxlat = 0, minlat = 0, maxlon = 0, minlon = 0;
GeoLatLng[] points = _latlngs;
for (int i = 0; i < points.Length; i++)
{
// determin bounds (Max/Min Lat/lon)
if (i == 0)
{
maxlat = minlat = points[i].Lat();
maxlon = minlon = points[i].Lng();
}
else
{
if (points[i].Lat() > maxlat)
{
maxlat = points[i].Lat();
}
else if (points[i].Lat() < minlat)
{
minlat = points[i].Lat();
}
else if (points[i].Lng() > maxlon)
{
maxlon = points[i].Lng();
}
else if (points[i].Lng() < minlon)
{
minlon = points[i].Lng();
}
}
}
GeoLatLng sw = new GeoLatLng(minlat, minlon);
GeoLatLng ne = new GeoLatLng(maxlat, maxlon);
_bounds = new GeoLatLngBounds(sw, ne);
}
_color = color;
_weight = weight;
_opacity = opacity;
ZoomFactor = 1;
NumLevels = 0;
_visible = true;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* set the array of points which consist of the line.
* @param points array of points
*/
public void SetPoints(GeoLatLng[] points)
{
_latlngs = points;
}
private GeoLatLng ComputeFormDir(GeoLatLng pt1, double distance, double crs)
{
//get select values
double lat2, lon2;
/* Input and validate data */
double lat1 = pt1.LatRadians();
double lon1 = -pt1.LngRadians();
double d12 = distance;
double dc = _currentUnit == UNIT_NM ? 1 : 1.852;
d12 /= dc;
double crs12 = crs * MathEx.PI / 180.0;
if (_currentEarthMode == EARTH_MODEL_SPHERE)
{
// spherical code
d12 /= (180 * 60 / MathEx.PI); // in radians
DirectResult cd = Direct(lat1, lon1, crs12, d12);
lat2 = cd._lat * (180 / MathEx.PI);
lon2 = cd._lon * (180 / MathEx.PI);
}
else
{
// elliptic code// ellipse uses East negative
DirectResult cde = DirectEll(lat1, -lon1, crs12, d12, _currentEarthMode);
lat2 = cde._lat * (180 / MathEx.PI);
lon2 = -cde._lon * (180 / MathEx.PI);// ellipse uses East negative
}
double retLat = lat2;
double retLon = -lon2;
return new GeoLatLng(retLat, retLon);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Sets the map view to the given center.
* @param center the center latitude,longitude of the map.
* @param zoomLevel the zoom Level of the map [0,17].
*/
public override void SetCenter(GeoLatLng center, int zoomLevel)
{
lock (_mapLayers)
{
for (int i = 0; i < _mapLayers.Count; i++)
{
MapLayer mapLayer = (MapLayer)_mapLayers[i];
mapLayer.SetCenter(center, zoomLevel);
}
}
base.SetCenter(center, zoomLevel);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Copy constructor.
* @param mapText map object copy from.
*/
public MapText(MapText mapText)
: base(mapText)
{
SetMapObjectType(TEXT);
Point = new GeoLatLng(mapText.Point);
Angle = mapText.Angle;
BackColor = mapText.BackColor;
ForeColor = mapText.ForeColor;
Justification = mapText.Justification;
Spacing = mapText.Spacing;
LineType = mapText.LineType;
TextString = mapText.TextString;
Font = mapText.Font;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* is the point in current screen (is shown or not).
* @param pt point to be tested.
* @return true is in screen range.
*/
public virtual bool IsPointVisible(GeoLatLng pt)
{
GeoPoint screenPt = FromLatLngToMapPixel(pt);
return _mapSize.Contains((int)screenPt.X, (int)screenPt.Y);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Set the location of the map point.
* @param p the location
*/
public void SetPoint(GeoLatLng p)
{
Point = new GeoLatLng(p);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Resize the map to a level that include given bounds
* @param bounds new bound.
*/
public virtual void Resize(GeoLatLngBounds bounds)
{
lock (_syncObject)
{
GeoLatLng sw = bounds.GetSouthWest();
GeoLatLng ne = bounds.GetNorthEast();
GeoLatLng center = new GeoLatLng {X = (sw.X + ne.X)/2.0, Y = (sw.Y + ne.Y)/2.0};
GeoPoint pt1, pt2;
for (int i = MAX_ZOOMLEVEL; i >= MIN_ZOOMLEVEL; i--)
{
pt1 = FromLatLngToPixel(sw, i);
pt2 = FromLatLngToPixel(ne, i);
double dblWidth = Math.Abs(pt1.X - pt2.X);
double dblHeight = Math.Abs(pt1.Y - pt2.Y);
if (dblWidth < _mapSize.Width && dblHeight < _mapSize.Height)
{
_mapZoomLevel = i;
SetCenter(center, i);
break;
}
}
}
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Get a location with given Distance ,direction of one point.
* @param pt1 the first location.
* @param Distance the Distance to the first point.
* @param direction the direction to the first point.
* @return the second point.
*/
public GeoLatLng GetLocationWithDistance(GeoLatLng pt1, double distance, double direction)
{
return(ComputeFormDir(pt1, distance, direction));
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Calculate the Distance between two point in great circle.
* @param pt1 the first location.
* @param pt2 the second location.
* @return the Distance between the two points.
*/
public double CalculateDistance(GeoLatLng pt1, GeoLatLng pt2)
{
CrsdistResult ret = ComputeFormCD(pt1, pt2);
return(ret._d);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Computes the pixel coordinates of the given geographical point .
* @param latLng latitude,longitude pair of give point
* @param zoomLevel current zoom level
* @return the pixel coordinates.
*/
public static GeoPoint FromLatLngToPixel(GeoLatLng latLng, int zoomLevel)
{
//double latitude = latLng.Lat();
//double longitude = latLng.Lng();
//double power = 8 + zoomLevel;
//double mapsize = MathEx.Pow(2, power);
//double origin = mapsize / 2;
//double longdeg = MathEx.Abs(-180 - longitude);
//double longppd = mapsize / 360;
//double longppdrad = mapsize / (2 * Math.PI);
//double pixelx = longdeg * longppd;
//double e = MathEx.Sin(latitude * (1 / 180.0 * MathEx.PI));
//if (e > 0.9999)
//{
// e = 0.9999;
//}
//if (e < -0.9999)
//{
// e = -0.9999;
//}
//double pixely = origin + 0.5 * MathEx.Log2((1 + e) / (1 - e)) * (-longppdrad);
//return new GeoPoint(pixelx, pixely);
int pixelX, pixelY;
TileSystem.LatLongToPixelXY(latLng.Lat(), latLng.Lng(), zoomLevel, out pixelX, out pixelY);
return new GeoPoint(pixelX, pixelY);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Get a location with given Distance ,direction of one point.
* @param pt1 the first location.
* @param Distance the Distance to the first point.
* @param direction the direction to the first point.
* @return the second point.
*/
public GeoLatLng GetLocationWithDistance(GeoLatLng pt1, double distance, double direction)
{
return ComputeFormDir(pt1, distance, direction);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* return screen boundary in geo coordinates.
* @param pt the center of the screen.
* @return screen boundary in geo coordinates.
*/
public GeoLatLngBounds GetScreenBounds(GeoLatLng pt)
{
lock (_syncObject)
{
GeoPoint center = FromLatLngToPixel(pt, _mapZoomLevel);
int shiftWidth = _screenSize.Width;
GeoPoint topLeft = new GeoPoint(center.X - _screenSize.Width / 2.0 - shiftWidth,
center.Y - _screenSize.Height / 2.0 - _screenSize.Height);
GeoPoint bottomRight = new GeoPoint(center.X + _screenSize.Width / 2.0 + shiftWidth,
center.Y + _screenSize.Height / 2.0 + _screenSize.Height);
GeoLatLng topLeftLatLng = FromPixelToLatLng(topLeft, _mapZoomLevel);
GeoLatLng bottomRightLatLng = FromPixelToLatLng(bottomRight, _mapZoomLevel);
double minY = Math.Min(bottomRightLatLng.Lat(), topLeftLatLng.Lat());
double maxY = Math.Max(bottomRightLatLng.Lat(), topLeftLatLng.Lat());
double minX = Math.Min(bottomRightLatLng.Lng(), topLeftLatLng.Lng());
double maxX = Math.Max(bottomRightLatLng.Lng(), topLeftLatLng.Lng());
return new GeoLatLngBounds(minX, minY, maxX - minX, maxY - minY);
}
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Creates a polyline from encoded strings of aggregated points and levels.
* ZoomFactor and NumLevels these two values determine the precision
* of the levels within an encoded polyline.
* @param _color the _color of the polyline.
* @param _weight Width of the line in pixels.
* @param _opacity the _opacity of the polyline.
* @param points a string containing the encoded latitude and longitude
* coordinates.
* @param ZoomFactor the magnification between adjacent sets of zoom levels
* in the encoded levels string.
* @param levels a string containing the encoded polyline zoom level groups.
* @param NumLevels the number of zoom levels contained in the encoded
* levels string.
* @return Geo polyline object.
*/
public static GeoPolyline FromEncoded(int color, int weight, double opacity,
String points, int zoomFactor, String levels, int numLevels)
{
ArrayList trk = PolylineEncoder.CreateDecodings(points);
GeoLatLng[] array = new GeoLatLng[trk.Count];
var temp = trk.ToArray();
for (int i = 0; i < temp.Length; i++)
{
array[i] = (GeoLatLng)temp[i];
}
GeoPolyline polyline = new GeoPolyline(array, color, weight, opacity);
polyline._levels = PolylineEncoder.DecodeLevel(levels);
polyline.ZoomFactor = zoomFactor;
polyline.NumLevels = numLevels;
return polyline;
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Changes the center point of the map to the given point.
* @param center a new center point of the map.
*/
public virtual void PanTo(GeoLatLng center)
{
lock (_syncObject)
{
_mapCenterPt.X = center.X;
_mapCenterPt.Y = center.Y;
DrawMapCanvas();
}
}
private void MainWindow_Load(object sender, EventArgs e)
{
var center = new GeoLatLng(32.0176410, 118.7273120);
_rasterMap.SetCenter(center, 2, _rasterMap.GetMapType());
btnReset_Click(sender,e);
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Sets the map view to the given center.
* @param center the center latitude,longitude of the map.
* @param zoomLevel the zoom Level of the map [0,17].
*/
public virtual void SetCenter(GeoLatLng center, int zoomLevel)
{
lock (_syncObject)
{
_mapZoomLevel = zoomLevel;
_mapCenterPt.X = center.X;
_mapCenterPt.Y = center.Y;
DrawMapCanvas();
}
}
////////////////////////////////////////////////////////////////////////////
//--------------------------------- REVISIONS ------------------------------
// Date Name Tracking # Description
// --------- ------------------- ------------- ----------------------
// 18JUN2009 James Shen Initial Creation
////////////////////////////////////////////////////////////////////////////
/**
* Calculate the Distance between two point in great circle.
* @param pt1 the first location.
* @param pt2 the second location.
* @return the Distance between the two points.
*/
public double CalculateDistance(GeoLatLng pt1, GeoLatLng pt2)
{
CrsdistResult ret = ComputeFormCD(pt1, pt2);
return ret._d;
}