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/*****
* runpair.in
*
* Runtime functions for pair operations.
*
*****/
pair => primPair()
#include "pair.h"
using namespace camp;
namespace run {
extern pair zero;
}
pair sin(pair z)
{
return pair(sin(z.getx())*cosh(z.gety()),cos(z.getx())*sinh(z.gety()));
}
pair exp(pair z)
{
return exp(z.getx())*expi(z.gety());
}
pair gamma(pair z)
{
static double p[]={0.99999999999980993,676.5203681218851,-1259.1392167224028,
771.32342877765313,-176.61502916214059,12.507343278686905,
-0.13857109526572012,9.9843695780195716e-6,
1.5056327351493116e-7};
static int n=sizeof(p)/sizeof(double);
static double root2pi=sqrt(2*PI);
if(z.getx() < 0.5)
return PI/(sin(PI*z)*gamma(1.0-z));
z -= 1.0;
pair x=p[0];
for(int i=1; i < n; ++i)
x += p[i]/(z+i);
pair t=n-1.5+z;
return root2pi*pow(t,z+0.5)*exp(-t)*x;
}
// Autogenerated routines:
pair :pairZero()
{
return zero;
}
pair :realRealToPair(real x, real y)
{
return pair(x,y);
}
pair :pairNegate(pair z)
{
return -z;
}
real xpart:pairXPart(pair z)
{
return z.getx();
}
real ypart:pairYPart(pair z)
{
return z.gety();
}
real length(pair z)
{
return z.length();
}
real abs(pair z)
{
return z.length();
}
pair sqrt(explicit pair z)
{
return Sqrt(z);
}
// Return the angle of z in radians.
real angle(pair z, bool warn=true)
{
if(!warn && z.getx() == 0.0 && z.gety() == 0.0) return 0.0;
return z.angle();
}
// Return the angle of z in degrees in the interval [0,360).
real degrees(pair z, bool warn=true)
{
if(!warn && z.getx() == 0.0 && z.gety() == 0.0) return 0.0;
return principalBranch(degrees(z.angle()));
}
// Convert degrees to radians.
real radians(real degrees)
{
return radians(degrees);
}
// Convert radians to degrees.
real degrees(real radians)
{
return degrees(radians);
}
// Convert radians to degrees in [0,360).
real Degrees(real radians)
{
return principalBranch(degrees(radians));
}
real Sin(real deg)
{
return sin(radians(deg));
}
real Cos(real deg)
{
return cos(radians(deg));
}
real Tan(real deg)
{
return tan(radians(deg));
}
real aSin(real x)
{
return degrees(asin(x));
}
real aCos(real x)
{
return degrees(acos(x));
}
real aTan(real x)
{
return degrees(atan(x));
}
pair unit(pair z)
{
return unit(z);
}
pair dir(real degrees)
{
return expi(radians(degrees));
}
pair dir(explicit pair z)
{
return unit(z);
}
pair expi(real angle)
{
return expi(angle);
}
pair exp(explicit pair z)
{
return exp(z);
}
pair log(explicit pair z)
{
return pair(log(z.length()),z.angle());
}
pair sin(explicit pair z)
{
return sin(z);
}
pair cos(explicit pair z)
{
return pair(cos(z.getx())*cosh(z.gety()),-sin(z.getx())*sinh(z.gety()));
}
// Complex Gamma function
pair gamma(explicit pair z)
{
return gamma(z);
}
pair conj(pair z)
{
return conj(z);
}
pair realmult(pair z, pair w)
{
return pair (z.getx()*w.getx(),z.gety()*w.gety());
}
// To avoid confusion, a dot product requires explicit pair arguments.
real dot(explicit pair z, explicit pair w)
{
return dot(z,w);
}
pair bezier(pair a, pair b, pair c, pair d, real t)
{
real onemt=1-t;
real onemt2=onemt*onemt;
return onemt2*onemt*a+t*(3.0*(onemt2*b+t*onemt*c)+t*t*d);
}
pair bezierP(pair a, pair b, pair c, pair d, real t)
{
return 3.0*(t*t*(d-a+3.0*(b-c))+t*(2.0*(a+c)-4.0*b)+b-a);
}
pair bezierPP(pair a, pair b, pair c, pair d, real t)
{
return 6.0*(t*(d-a+3.0*(b-c))+a+c-2.0*b);
}
pair bezierPPP(pair a, pair b, pair c, pair d)
{
return 6.0*(d-a+3.0*(b-c));
}
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