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restricted int undefined=intMax+((intMax % 2)-1);
restricted real inches=72;
restricted real inch=inches;
restricted real cm=inches/2.54;
restricted real mm=0.1cm;
restricted real bp=1; // A PostScript point.
restricted real pt=72.0/72.27; // A TeX pt; smaller than a PostScript bp.
restricted pair I=(0,1);
restricted pair up=(0,1);
restricted pair down=(0,-1);
restricted pair right=(1,0);
restricted pair left=(-1,0);
restricted pair E=(1,0);
restricted pair N=(0,1);
restricted pair W=(-1,0);
restricted pair S=(0,-1);
restricted pair NE=unit(N+E);
restricted pair NW=unit(N+W);
restricted pair SW=unit(S+W);
restricted pair SE=unit(S+E);
restricted pair ENE=unit(E+NE);
restricted pair NNE=unit(N+NE);
restricted pair NNW=unit(N+NW);
restricted pair WNW=unit(W+NW);
restricted pair WSW=unit(W+SW);
restricted pair SSW=unit(S+SW);
restricted pair SSE=unit(S+SE);
restricted pair ESE=unit(E+SE);
restricted real sqrtEpsilon=sqrt(realEpsilon);
restricted pair Align=sqrtEpsilon*NE;
restricted int mantissaBits=ceil(-log(realEpsilon)/log(2))+1;
int min(... int[] a) {return min(a);}
int max(... int[] a) {return max(a);}
real min(... real[] a) {return min(a);}
real max(... real[] a) {return max(a);}
bool finite(real x)
{
return abs(x) < infinity;
}
bool finite(pair z)
{
return abs(z.x) < infinity && abs(z.y) < infinity;
}
bool finite(triple v)
{
return abs(v.x) < infinity && abs(v.y) < infinity && abs(v.z) < infinity;
}
restricted file stdin=input("");
restricted file stdout=output("");
void none(file file) {}
void endl(file file) {write(file,'\n',flush);}
void newl(file file) {write(file,'\n');}
void tab(file file) {write(file,'\t');}
void comma(file file) {write(file,',');}
typedef void suffix(file);
// Used by interactive write to warn that the outputted type is the resolution
// of an overloaded name.
void overloadedMessage(file file) {
write(file,' <overloaded>');
endl(file);
}
void write(suffix suffix=endl) {suffix(stdout);}
void write(file file, suffix suffix=none) {suffix(file);}
path box(pair a, pair b)
{
return a--(b.x,a.y)--b--(a.x,b.y)--cycle;
}
restricted path unitsquare=box((0,0),(1,1));
restricted path unitcircle=E..N..W..S..cycle;
restricted real circleprecision=0.0006;
restricted transform invert=reflect((0,0),(1,0));
restricted pen defaultpen;
// A type that takes on one of the values true, false, or default.
struct bool3 {
bool value;
bool set;
}
void write(file file, string s="", bool3 b, suffix suffix=none)
{
if(b.set) write(b.value);
else write("default");
}
void write(string s="", bool3 b, suffix suffix=endl)
{
write(stdout,s,b,suffix);
}
restricted bool3 default;
bool operator cast(bool3 b)
{
return b.set && b.value;
}
bool3 operator cast(bool b)
{
bool3 B;
B.value=b;
B.set=true;
return B;
}
bool operator == (bool3 a, bool3 b)
{
return a.set == b.set && (!a.set || (a.value == b.value));
}
bool operator != (bool3 a, bool3 b)
{
return a.set != b.set || (a.set && (a.value != b.value));
}
bool operator == (bool3 a, bool b)
{
return a.set && a.value == b;
}
bool operator != (bool3 a, bool b)
{
return !a.set || a.value != b;
}
bool operator == (bool a, bool3 b)
{
return b.set && b.value == a;
}
bool operator != (bool a, bool3 b)
{
return !b.set || b.value != a;
}
bool[] operator cast(bool3[] b)
{
return sequence(new bool(int i) {return b[i];},b.length);
}
bool3[] operator cast(bool[] b)
{
return sequence(new bool3(int i) {return b[i];},b.length);
}
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