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diff --git a/Build/source/utils/asymptote/examples/worldmap.asy b/Build/source/utils/asymptote/examples/worldmap.asy
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+size(20cm);
+
+// The required data file is available here:
+// http://www.uni-graz.at/~schwaige/asymptote/worldmap.dat
+// This data was originally obtained from
+// http://www.ngdc.noaa.gov/mgg_coastline/mapit.jsp
+
+real findtheta(real phi, real epsilon=realEpsilon) {
+ // Determine for given phi the unique solution -pi/2 <= theta <= pi/2 off
+ // 2*theta+sin(2*theta)=pi*sin(phi)
+ // in the non-trivial cases by Newton iteration;
+ // theoretically the initial guess pi*sin(phi)/4 always works.
+ real nwtn(real x, real y) {return x-(2x+sin(2x)-y)/(2+2*cos(2x));};
+ real y=pi*sin(phi);
+ if(y == 0) return 0.0;
+ if(abs(y) == 1) return pi/2;
+ real startv=y/4;
+ real endv=nwtn(startv,y);
+ if(epsilon < 500*realEpsilon) epsilon=500*realEpsilon;
+ while(abs(endv-startv) > epsilon) {startv=endv; endv=nwtn(startv,y);};
+ return endv;
+}
+
+pair mollweide(real lambda, real phi, real lambda0=0){
+ // calculate the Mollweide projection centered at lambda0 for the point
+ // with coordinates(phi,lambda)
+ static real c1=2*sqrt(2)/pi;
+ static real c2=sqrt(2);
+ real theta=findtheta(phi);
+ return(c1*(lambda-lambda0)*cos(theta), c2*sin(theta));
+}
+
+guide gfrompairs(pair[] data){
+ guide gtmp;
+ for(int i=0; i < data.length; ++i) {
+ pair tmp=mollweide(radians(data[i].y),radians(data[i].x));
+ gtmp=gtmp--tmp;
+ }
+ return gtmp;
+}
+
+string datafile="worldmap.dat";
+
+file in=input(datafile,comment="/").line();
+// new commentchar since "#" is contained in the file
+pair[][] arrarrpair=new pair[][] ;
+int cnt=-1;
+bool newseg=false;
+while(true) {
+ if(eof(in)) break;
+ string str=in;
+ string[] spstr=split(str,"");
+
+ if(spstr[0] == "#") {++cnt; arrarrpair[cnt]=new pair[] ; newseg=true;}
+ if(spstr[0] != "#" && newseg) {
+ string[] spstr1=split(str,'\t'); // separator is TAB not SPACE
+ pair tmp=((real) spstr1[1],(real) spstr1[0]);
+ arrarrpair[cnt].push(tmp);
+ }
+}
+
+for(int i=0; i < arrarrpair.length; ++i)
+ draw(gfrompairs(arrarrpair[i]),1bp+black);
+
+// lines of longitude and latitude
+pair[] constlong(real lambda, int np=100) {
+ pair[] tmp;
+ for(int i=0; i <= np; ++i) tmp.push((-90+i*180/np,lambda));
+ return tmp;
+}
+
+pair[] constlat(real phi, int np=100) {
+ pair[] tmp;
+ for(int i=0; i <= 2*np; ++i) tmp.push((phi,-180+i*180/np));
+ return tmp;
+}
+
+for(int j=1; j <= 5; ++j) draw(gfrompairs(constlong(-180+j/6*360)),white);
+draw(gfrompairs(constlong(-180)),1.5bp+white);
+draw(gfrompairs(constlong(180)),1.5bp+white);
+for(int j=0; j <= 12; ++j) draw(gfrompairs(constlat(-90+j/6*180)),white);
+//draw(gfrompairs(constlong(10)),dotted);
+
+close(in);
+shipout(bbox(1mm,darkblue,Fill(lightblue)), view=true);
+