mapnik/plugins/input/osm/demo/GoogleProjection.h

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#ifndef GOOGLEPROJECTION_H
#define GOOGLEPROJECTION_H
#include <vector>
using std::vector;
#include <cmath>
#define max(a,b) (((a)>(b))?(a):(b))
#define min(a,b) (((a)<(b))?(a):(b))
struct ScreenPos
{
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int x,y;
ScreenPos() { x=y=0; }
ScreenPos(int x,int y) { this->x=x; this->y=y; }
};
struct EarthPoint
{
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double x,y;
EarthPoint() { x=y=0.0; }
EarthPoint(double x,double y) { this->x=x; this->y=y; }
};
class GoogleProjection
{
private:
vector<double> Bc,Cc,zc,Ac;
int levels;
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double minmax (double a,double b, double c)
{
a = max(a,b);
a = min(a,c);
return a;
}
public:
GoogleProjection(int levels=18)
{
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this->levels=levels;
double c = 256;
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double e;
for (int d=0; d<levels; d++)
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{
e = c/2;
Bc.push_back(c/360.0);
Cc.push_back(c/(2 * M_PI));
zc.push_back(e);
Ac.push_back(c);
c *= 2;
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}
}
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ScreenPos fromLLToPixel(double lon,double lat,int zoom)
{
double d = zc[zoom];
double e = round(d + lon * Bc[zoom]);
double f = minmax(sin((M_PI/180.0) * lat),-0.9999,0.9999);
double g = round(d + 0.5*log((1+f)/(1-f))*-Cc[zoom]);
return ScreenPos(e,g);
}
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EarthPoint fromPixelToLL(int x,int y,int zoom)
{
double e = zc[zoom];
double f = (x - e)/Bc[zoom];
double g = (y - e)/-Cc[zoom];
double h = (180.0/M_PI) * ( 2 * atan(exp(g)) - 0.5 * M_PI);
return EarthPoint(f,h);
}
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// convert to the zoom independent Google system; TBH I don't really
// understand what it represents....
static EarthPoint fromLLToGoog(double lon,double lat)
{
double a = log(tan((90+lat)*M_PI / 360))/(M_PI / 180);
double custLat = a * 20037508.34 / 180;
double custLon=lon;
custLon = custLon * 20037508.34 / 180;
return EarthPoint(custLon,custLat);
}
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// other way round
static EarthPoint fromGoogToLL(double x,double y)
{
double lat_deg,lon_deg;
lat_deg = (y / 20037508.34) * 180;
lon_deg = (x / 20037508.34) * 180;
lat_deg = 180/M_PI *
(2 * atan(exp(lat_deg * M_PI / 180)) - M_PI / 2);
return EarthPoint(lon_deg,lat_deg);
}
};
#endif // GOOGLEPROJECTION_H