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import graph3;
import palette;
size3(200,IgnoreAspect);
file in=input("filesurface.dat").line();
real[] x=in;
real[] y=in;
real[][] f=in.dimension(0,0);
triple f(pair t) {
int i=round(t.x);
int j=round(t.y);
return (x[i],y[j],f[i][j]);
}
surface s=surface(f,(0,0),(x.length-1,y.length-1),x.length-1,y.length-1);
real[] level=uniform(min(f)*(1-sqrtEpsilon),max(f)*(1+sqrtEpsilon),4);
s.colors(palette(s.map(new real(triple v) {return find(level >= v.z);}),
Rainbow()));
draw(s,meshpen=thick());
triple m=currentpicture.userMin;
triple M=currentpicture.userMax;
triple target=0.5*(m+M);
xaxis3("$x$",Bounds,InTicks);
yaxis3("$y$",Bounds,InTicks(Step=1,step=0.1));
zaxis3("$z$",Bounds,InTicks);
/*
picture palette;
size3(palette,1cm);
draw(palette,unitcube,red);
frame F=palette.fit3();
add(F,(M.x,m.y,m.z));
*/
currentprojection=perspective(camera=target+realmult(dir(68,225),M-m),
target=target);
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