#include <Cons.h>
Public Member Functions | |
Cons (double zhalf, double rInMinusZ, double rOutMinusZ, double rInPlusZ, double rOutPlusZ, double startPhi, double deltaPhi) | |
void | stream (std::ostream &) const |
double | volume () const |
DDI::Cons::Cons | ( | double | zhalf, |
double | rInMinusZ, | ||
double | rOutMinusZ, | ||
double | rInPlusZ, | ||
double | rOutPlusZ, | ||
double | startPhi, | ||
double | deltaPhi | ||
) |
void DDI::Cons::stream | ( | std::ostream & | os | ) | const [virtual] |
double DDI::Cons::volume | ( | void | ) | const [virtual] |
Reimplemented from DDI::Solid.
Definition at line 38 of file Cons.cc.
References Geom::deltaPhi(), pi, and z.
{ /* zhalf is the half length of the cone, phiTo is always clockwise rotated from phiFrom rInMinusZ is always smaller than rOutMinusZ (same for r*PlusZ) They are the distances relative to the rotation axes */ /* calculation normalize from 0 to z */ /* The function f=rInMinusZ+((rInPlusZ-rInMinusZ)/z)*x defines the radius of the the rotation from 0 to z. Raised to the power of 2 integrated on x from 0 to z. Multiplied by pi, gives the volume that needs to substracted from the other volume */ /* f^2=rInMinusZ*rInMinusZ+2*rInMinusZ*((rInPlusZ-rInMinusZ)/z)*x+((rInPlusZ-rInMinusZ)*(rInPlusZ-rInMinusZ)*x*x)/(z*z) */ /* primitive of f^2 is: rInMinusZ*rInMinusZ*x+rInMinusZ*((rInPlusZ-rInMinusZ)/z)*(x*x)+(rInPlusZ-rInMinusZ)*(rInPlusZ-rInMinusZ)*(x*x*x)/(3*z*z) */ /*integration from 0 to z yields: pi*( rInMinusZ*rInMinusZ*z+rInMinusZ*(rInPlusZ-rInMinusZ)*z+((rInPlusZ-rInMinusZ)*(rInPlusZ-rInMinusZ)*z)/(3) ) */ double zhalf=p_[0]; double rInMinusZ=p_[1]; double rOutMinusZ=p_[2]; double rInPlusZ=p_[3]; double rOutPlusZ=p_[4]; //double phiFrom=p_[5]/rad; double deltaPhi=fabs(p_[6]/rad); double z=2*zhalf; double volume1=pi*(rInPlusZ*rInPlusZ+rInMinusZ*rInMinusZ+rInMinusZ*rInPlusZ)*z/3; double volume2=pi*(rOutPlusZ*rOutPlusZ+rOutMinusZ*rOutMinusZ+rOutMinusZ*rOutPlusZ)*z/3; double slice=deltaPhi/(2*pi); double volume=slice*(volume2-volume1); return volume; }