da/d75/SiPixelRecHits_2src_2VVIObj_8cc_source.html

 //

 //  VVIObj.cc  Version 2.0

 //

 //  Port of CERNLIB G116 Functions vviden/vvidis

 //

 // Created by Morris Swartz on 1/14/2010.

 // 2010 __TheJohnsHopkinsUniversity__.

 //

 // V1.1 - make dzero call both fcns with a switch

 // V1.2 - remove inappriate initializers and add methods to return non-zero/normalized region

 // V2.0 - restructuring and speed improvements by V. Innocente

 //


 #ifndef SI_PIXEL_TEMPLATE_STANDALONE

 // put CMSSW location of SimpleHelix.h here

 #include "RecoLocalTracker/SiPixelRecHits/interface/VVIObj.h"

 #else

 #include "VVIObj.h"

 #endif


 #include <cmath>

 #include <algorithm>

 #include<boost/bind.hpp>


 namespace VVIObjDetails {

   void sincosint(double x, double & sint, double & cint);

   double cosint(double x);

   double sinint(double x);

   double expint(double x);


   template<typename F>

   int dzero(double a, double b, double& x0,

         double& rv, double eps, int mxf, F func);

 }


 // ***************************************************************************************************************************************

 // ***************************************************************************************************************************************


 VVIObj::VVIObj(double kappa, double beta2, int mode) : mode_(mode) {


   const double xp[9] = { 9.29,2.47,.89,.36,.15,.07,.03,.02,0.0 };

   const double xq[7] = { .012,.03,.08,.26,.87,3.83,11.0 };

   double h_[7];

   double  q, u, x, c1, c2, c3, c4, d1, h4, h5, h6, q2, x1, d, ll, ul, xf1, xf2, rv;

   int lp, lq, k, l, n;


   // Make sure that the inputs are reasonable


   if(kappa < 0.01) kappa = 0.01;

   if(kappa > 10.) kappa = 10.;

   if(beta2 < 0.) beta2 = 0.;

   if(beta2 > 1.) beta2 = 1.;


   h_[4] = 1. - beta2*0.42278433999999998 + 7.6/kappa;

   h_[5] = beta2;

   h_[6] = 1. - beta2;

   h4 = -7.6/kappa - (beta2 * .57721566 + 1);

   h5 = log(kappa);

   h6 = 1./kappa;

   t0_ = (h4 - h_[4]*h5 - (h_[4] + beta2)*(log(h_[4]) + VVIObjDetails::expint(h_[4])) + exp(-h_[4]))/h_[4];


   // Set up limits for the root search


   for (lp = 0; lp < 9; ++lp) {

     if (kappa >= xp[lp]) break;

   }

   ll = -lp - 1.5;

   for (lq = 0; lq < 7; ++lq) {

     if (kappa <= xq[lq]) break;

   }

   ul = lq - 6.5;

   auto f2 = [h_](double x) { return h_[4]-x+h_[5]*(std::log(std::abs(x))+VVIObjDetails::expint(x))-h_[6]*std::exp(-x);};

   VVIObjDetails::dzero(ll, ul, u, rv, 1.e-5, 1000, f2);

   q = 1./u;

   t1_ = h4 * q - h5 - (beta2 * q + 1) * (log((fabs(u))) + VVIObjDetails::expint(u)) + exp(-u) * q;

   t_ = t1_ - t0_;

   omega_ = 6.2831853000000004/t_;

   h_[0] = kappa * (beta2 * .57721566 + 2.) + 9.9166128600000008;

   if (kappa >= .07) {h_[0] += 6.90775527;}

   h_[1] = beta2 * kappa;

   h_[2] = h6 * omega_;

   h_[3] = omega_ * 1.5707963250000001;

   auto f1 = [h_](double x){ return h_[0]+h_[1]*std::log(h_[2]*x)-h_[3]*x;};

   VVIObjDetails::dzero(5., 155., x0_, rv, 1.e-5, 1000, f1);

   n = x0_ + 1.;

   d = exp(kappa * (beta2 * (.57721566 - h5) + 1.)) * .31830988654751274;

   a_[n - 1] = 0.;

   if (mode_ == 0) {

     a_[n - 1] = omega_ * .31830988654751274;

   }

   q = -1.;

   q2 = 2.;

   for (k = 1; k < n; ++k) {

     l = n - k;

     x = omega_ * k;

     x1 = h6 * x;

     VVIObjDetails::sincosint(x1,c2,c1);

     c1 = log(x) - c1;

     c3 = sin(x1);

     c4 = cos(x1);

     xf1 = kappa * (beta2 * c1 - c4) - x * c2;

     xf2 = x * c1 + kappa * (c3 + beta2 * c2) + t0_ * x;

     if (mode_ == 0) {

       d1 = q * d * omega_ * exp(xf1);

       a_[l - 1] = d1 * cos(xf2);

       b_[l - 1] = -d1 * sin(xf2);

     } else {

       d1 = q * d * exp(xf1)/k;

       a_[l - 1] = d1 * sin(xf2);

       b_[l - 1] = d1 * cos(xf2);

       a_[n - 1] += q2 * a_[l - 1];

     }

     q = -q;

     q2 = -q2;

   }


 } // VVIObj


 // *************************************************************************************************************************************

 // *************************************************************************************************************************************


 double VVIObj::fcn(double x) const {


     // Local variables


     double f, u, y, a0, a1;

     double a2 = 0.;

     double b1, b0, b2, cof;

     int k, n, n1;


     n = x0_;

     if (x < t0_) {

         f = 0.;

     } else if (x <= t1_) {

       y = x - t0_;

       u = omega_ * y - 3.141592653589793;

       cof = cos(u) * 2.;

       a1 = 0.;

       a0 = a_[0];

       n1=n+1;

       for (k = 2; k <= n1; ++k) {

         a2 = a1;

         a1 = a0;

         a0 = a_[k - 1] + cof * a1 - a2;

       }

       b1 = 0.;

       b0 = b_[0];

       for (k = 2; k <= n; ++k) {

         b2 = b1;

         b1 = b0;

         b0 = b_[k - 1] + cof * b1 - b2;

       }

       f = (a0 - a2) * .5 + b0 * sin(u);

       if (mode_ != 0) {f += y / t_;}

     } else {

       f = 0.;

       if (mode_ != 0) {f = 1.;}

     }

     return f;

 } // fcn


 // *************************************************************************************************************************************

 // *************************************************************************************************************************************


 void VVIObj::limits(double& xl, double& xu) const {


    xl = t0_;

    xu = t1_;

     return;

 } // limits


 namespace VVIObjDetails {

   double cosint(double x) {

     // Initialized data


     const double zero = 0.;

     const double one = 1.;

     const double two = 2.;

     const double eight = 8.;

     const double ce = .57721566490153;

     const double c__[14] = { 1.9405491464836,.9413409132865,

                  -.579845034293,.3091572011159,-.0916101792208,.0164437407515,

                  -.0019713091952,1.692538851e-4,-1.09393296e-5,5.522386e-7,

                  -2.23995e-8,7.465e-10,-2.08e-11,5e-13 };

     const double p[23] = { .96074783975204,-.0371138962124,

                .00194143988899,-1.7165988425e-4,2.112637753e-5,-3.27163257e-6,

                6.0069212e-7,-1.2586794e-7,2.932563e-8,-7.45696e-9,2.04105e-9,

                -5.9502e-10,1.8323e-10,-5.921e-11,1.997e-11,-7e-12,2.54e-12,

                -9.5e-13,3.7e-13,-1.4e-13,6e-14,-2e-14,1e-14 };

     const double q[20] = { .98604065696238,-.0134717382083,

                4.5329284117e-4,-3.067288652e-5,3.13199198e-6,-4.2110196e-7,

                6.907245e-8,-1.318321e-8,2.83697e-9,-6.7329e-10,1.734e-10,

                -4.787e-11,1.403e-11,-4.33e-12,1.4e-12,-4.7e-13,1.7e-13,-6e-14,

                2e-14,-1e-14 };


     // System generated locals

     double d__1;


     // Local variables

     double h__;

     int i__;

     double r__, y, b0, b1, b2, pp, qq, alfa;


     // If x==0, return same


     if (x == zero) {

       return zero;

     }

     if (fabs(x) <= eight) {

       y = x / eight;

       // Computing 2nd power

       d__1 = y;

       h__ = two * (d__1 * d__1) - one;

       alfa = -two * h__;

       b1 = zero;

       b2 = zero;

       for (i__ = 13; i__ >= 0; --i__) {

     b0 = c__[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       b1 = ce + log((fabs(x))) - b0 + h__ * b2;

     } else {

       r__ = one / x;

       y = eight * r__;

       // Computing 2nd power

       d__1 = y;

       h__ = two * (d__1 * d__1) - one;

       alfa = -two * h__;

       b1 = zero;

       b2 = zero;

       for (i__ = 22; i__ >= 0; --i__) {

     b0 = p[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       pp = b0 - h__ * b2;

       b1 = zero;

       b2 = zero;

       for (i__ = 19; i__ >= 0; --i__) {

     b0 = q[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       qq = b0 - h__ * b2;

       b1 = r__ * (qq * sin(x) - r__ * pp * cos(x));

     }

     return b1;

   } // cosint


   double sinint(double x) {

     // Initialized data


     const double zero = 0.;

     const double one = 1.;

     const double two = 2.;

     const double eight = 8.;

     const double pih = 1.5707963267949;

     const double s[14] = { 1.9522209759531,-.6884042321257,

                .4551855132256,-.1804571236838,.0410422133759,-.0059586169556,

                6.001427414e-4,-4.44708329e-5,2.5300782e-6,-1.141308e-7,4.1858e-9,

                -1.273e-10,3.3e-12,-1e-13 };

     const double p[23] = { .96074783975204,-.0371138962124,

                .00194143988899,-1.7165988425e-4,2.112637753e-5,-3.27163257e-6,

                6.0069212e-7,-1.2586794e-7,2.932563e-8,-7.45696e-9,2.04105e-9,

                -5.9502e-10,1.8323e-10,-5.921e-11,1.997e-11,-7e-12,2.54e-12,

                -9.5e-13,3.7e-13,-1.4e-13,6e-14,-2e-14,1e-14 };

     const double q[20] = { .98604065696238,-.0134717382083,

                4.5329284117e-4,-3.067288652e-5,3.13199198e-6,-4.2110196e-7,

                6.907245e-8,-1.318321e-8,2.83697e-9,-6.7329e-10,1.734e-10,

                -4.787e-11,1.403e-11,-4.33e-12,1.4e-12,-4.7e-13,1.7e-13,-6e-14,

                2e-14,-1e-14 };


     // System generated locals

     double d__1;


     // Local variables

     double h__;

     int i__;

     double r__, y, b0, b1, b2, pp, qq, alfa;


     if (fabs(x) <= eight) {

       y = x / eight;

       d__1 = y;

       h__ = two * (d__1 * d__1) - one;

       alfa = -two * h__;

       b1 = zero;

       b2 = zero;

       for (i__ = 13; i__ >= 0; --i__) {

     b0 = s[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       b1 = y * (b0 - b2);

     } else {

       r__ = one / x;

       y = eight * r__;

       d__1 = y;

       h__ = two * (d__1 * d__1) - one;

       alfa = -two * h__;

       b1 = zero;

       b2 = zero;

       for (i__ = 22; i__ >= 0; --i__) {

     b0 = p[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       pp = b0 - h__ * b2;

       b1 = zero;

       b2 = zero;

       for (i__ = 19; i__ >= 0; --i__) {

     b0 = q[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       qq = b0 - h__ * b2;

       d__1 = fabs(pih);

       if(x < 0.) d__1 = -d__1;

       b1 = d__1 - r__ * (r__ * pp * sin(x) + qq * cos(x));

     }


     return b1;

   } // sinint


   void sincosint(double x, double & sint, double & cint) {

     // Initialized data


     const double zero = 0.;

     const double one = 1.;

     const double two = 2.;

     const double eight = 8.;

     const double ce = .57721566490153;

     const double pih = 1.5707963267949;

     const double s__[14] = { 1.9522209759531,-.6884042321257,

                  .4551855132256,-.1804571236838,.0410422133759,-.0059586169556,

                  6.001427414e-4,-4.44708329e-5,2.5300782e-6,-1.141308e-7,4.1858e-9,

                  -1.273e-10,3.3e-12,-1e-13 };


     const double c__[14] = { 1.9405491464836,.9413409132865,

                  -.579845034293,.3091572011159,-.0916101792208,.0164437407515,

                  -.0019713091952,1.692538851e-4,-1.09393296e-5,5.522386e-7,

                  -2.23995e-8,7.465e-10,-2.08e-11,5e-13 };


     const double p[23] = { .96074783975204,-.0371138962124,

                .00194143988899,-1.7165988425e-4,2.112637753e-5,-3.27163257e-6,

                6.0069212e-7,-1.2586794e-7,2.932563e-8,-7.45696e-9,2.04105e-9,

                -5.9502e-10,1.8323e-10,-5.921e-11,1.997e-11,-7e-12,2.54e-12,

                -9.5e-13,3.7e-13,-1.4e-13,6e-14,-2e-14,1e-14 };

     const double q[20] = { .98604065696238,-.0134717382083,

                4.5329284117e-4,-3.067288652e-5,3.13199198e-6,-4.2110196e-7,

                6.907245e-8,-1.318321e-8,2.83697e-9,-6.7329e-10,1.734e-10,

                -4.787e-11,1.403e-11,-4.33e-12,1.4e-12,-4.7e-13,1.7e-13,-6e-14,

                2e-14,-1e-14 };


     // System generated locals

     double d__1;


     // Local variables

     double h__;

     int i__;

     double r__, y, b0, b1, b2, pp, qq, alfa;


     sint=0;

     cint=0;


     if (fabs(x) <= eight) {

       y = x / eight;

       // Computing 2nd power

       d__1 = y;

       h__ = two * (d__1 * d__1) - one;

       alfa = -two * h__;


       // cos

       if (x!=0) {

     b1 = zero;

     b2 = zero;

     for (i__ = 13; i__ >= 0; --i__) {

       b0 = c__[i__] - alfa * b1 - b2;

       b2 = b1;

       b1 = b0;

     }

     cint = ce + log((fabs(x))) - b0 + h__ * b2;

       }

       // sin

       b1 = zero;

       b2 = zero;

       for (i__ = 13; i__ >= 0; --i__) {

     b0 = s__[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       sint = y * (b0 - b2);


     } else {

       r__ = one / x;

       y = eight * r__;

       // Computing 2nd power

       d__1 = y;

       h__ = two * (d__1 * d__1) - one;

       alfa = -two * h__;

       b1 = zero;

       b2 = zero;

       for (i__ = 22; i__ >= 0; --i__) {

     b0 = p[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       pp = b0 - h__ * b2;

       b1 = zero;

       b2 = zero;

       for (i__ = 19; i__ >= 0; --i__) {

     b0 = q[i__] - alfa * b1 - b2;

     b2 = b1;

     b1 = b0;

       }

       qq = b0 - h__ * b2;

       // cos

       cint = r__ * (qq * sin(x) - r__ * pp * cos(x));

       // sin

       d__1 = pih;

       if(x < 0.) d__1 = -d__1;

       sint = d__1 - r__ * (r__ * pp * sin(x) + qq * cos(x));

     }

   }


 double expint(double x) {


   // Initialized data


   const double zero = 0.;

   const double q2[7] = { .10340013040487,3.319092135933,

              20.449478501379,41.280784189142,32.426421069514,10.041164382905,

              1. };

   const double p3[6] = { -2.3909964453136,-147.98219500504,

              -254.3763397689,-119.55761038372,-19.630408535939,-.9999999999036

   };

   const double q3[6] = { 177.60070940351,530.68509610812,

              462.23027156148,156.81843364539,21.630408494238,1. };

   const double p4[8] = { -8.6693733995107,-549.14226552109,

              -4210.0161535707,-249301.39345865,-119623.66934925,

              -22174462.775885,3892804.213112,-391546073.8091 };

   const double q4[8] = { 34.171875,-1607.0892658722,35730.029805851,

              -483547.43616216,4285596.2461175,-24903337.574054,89192576.757561,

              -165254299.72521 };

   const double a1[8] = { -2.1808638152072,-21.901023385488,

              9.3081638566217,25.076281129356,-33.184253199722,60.121799083008,

              -43.253113287813,1.0044310922808 };

   const double b1[8] = { 0.,3.9370770185272,300.89264837292,

              -6.2504116167188,1003.6743951673,14.325673812194,2736.2411988933,

              .52746885196291 };

   const double a2[8] = { -3.4833465360285,-18.65454548834,

              -8.2856199414064,-32.34673303054,17.960168876925,1.7565631546961,

              -1.9502232128966,.99999429607471 };

   const double b2[8] = { 0.,69.500065588743,57.283719383732,

              25.777638423844,760.76114800773,28.951672792514,-3.4394226689987,

              1.0008386740264 };

   const double a3[6] = { -27.780928934438,-10.10479081576,

              -9.1483008216736,-5.0223317461851,-3.0000077799358,

              1.0000000000704 };

   const double one = 1.;

   const double b3[6] = { 0.,122.39993926823,2.7276100778779,

              -7.1897518395045,-2.9990118065262,1.999999942826 };

   const double two = 2.;

   const double three = 3.;

   const double x0 = .37250741078137;

   const double xl[6] = { -24.,-12.,-6.,0.,1.,4. };

   const double p1[5] = { 4.293125234321,39.894153870321,

              292.52518866921,425.69682638592,-434.98143832952 };

   const double q1[5] = { 1.,18.899288395003,150.95038744251,

              568.05252718987,753.58564359843 };

   const double p2[7] = { .43096783946939,6.9052252278444,

              23.019255939133,24.378408879132,9.0416155694633,.99997957705159,

              4.656271079751e-7 };


   /* Local variables */

    double v, y, ap, bp, aq, dp, bq, dq;


   if (x <= xl[0]) {

     ap = a3[0] - x;

     for ( int i__ = 2; i__ <= 5; ++i__) {

       /* L1: */

       ap = a3[i__ - 1] - x + b3[i__ - 1] / ap;

     }

     y = exp(-x) / x * (one - (a3[5] + b3[5] / ap) / x);

   } else if (x <= xl[1]) {

     ap = a2[0] - x;

     for ( int i__ = 2; i__ <= 7; ++i__) {

       ap = a2[i__ - 1] - x + b2[i__ - 1] / ap;

     }

     y = exp(-x) / x * (a2[7] + b2[7] / ap);

   } else if (x <= xl[2]) {

     ap = a1[0] - x;

     for ( int i__ = 2; i__ <= 7; ++i__) {

       ap = a1[i__ - 1] - x + b1[i__ - 1] / ap;

     }

     y = exp(-x) / x * (a1[7] + b1[7] / ap);

   } else if (x < xl[3]) {

     v = -two * (x / three + one);

     bp = zero;

     dp = p4[0];

     for ( int i__ = 2; i__ <= 8; ++i__) {

       ap = bp;

       bp = dp;

       dp = p4[i__ - 1] - ap + v * bp;

     }

     bq = zero;

     dq = q4[0];

     for ( int i__ = 2; i__ <= 8; ++i__) {

       aq = bq;

       bq = dq;

       dq = q4[i__ - 1] - aq + v * bq;

     }

     y = -log(-x / x0) + (x + x0) * (dp - ap) / (dq - aq);

   } else if (x == xl[3]) {

     return zero;

   } else if (x < xl[4]) {

     ap = p1[0];

     aq = q1[0];

     for ( int i__ = 2; i__ <= 5; ++i__) {

       ap = p1[i__ - 1] + x * ap;

       aq = q1[i__ - 1] + x * aq;

     }

     y = -log(x) + ap / aq;

   } else if (x <= xl[5]) {

     y = one / x;

     ap = p2[0];

     aq = q2[0];

     for ( int i__ = 2; i__ <= 7; ++i__) {

       ap = p2[i__ - 1] + y * ap;

       aq = q2[i__ - 1] + y * aq;

     }

     y = exp(-x) * ap / aq;

   } else {

     y = one / x;

     ap = p3[0];

     aq = q3[0];

     for ( int i__ = 2; i__ <= 6; ++i__) {

       ap = p3[i__ - 1] + y * ap;

       aq = q3[i__ - 1] + y * aq;

     }

     y = exp(-x) * y * (one + y * ap / aq);

   }

   return y;

 } // expint


   template<typename F>

   int dzero(double a, double b, double& x0,

         double& rv, double eps, int mxf, F func) {

     /* System generated locals */

     double d__1, d__2, d__3, d__4;


     // Local variables

     double f1, f2, f3, u1, u2, x1, x2, u3, u4, x3, ca, cb, cc, fa, fb, ee, ff;

     int mc;

     double xa, xb, fx, xx, su4;


     xa = std::min(a,b);

     xb = std::max(a,b);

     fa = func(xa);

     fb = func(xb);

     if (fa * fb > 0.) {

       rv = (xb - xa) * -2;

       x0 = 0.;

       return 1;

     }

     mc = 0;

   L1:

     x0 = (xa + xb) * .5;

     rv = x0 - xa;

     ee = eps * (fabs(x0) + 1);

     if (rv <= ee) {

       rv = ee;

       ff = func(x0);

       return 0;

     }

     f1 = fa;

     x1 = xa;

     f2 = fb;

     x2 = xb;

   L2:

     fx = func(x0);

     ++mc;

     if (mc > mxf) {

       rv = (d__1 = xb - xa, fabs(d__1)) * -.5;

       x0 = 0.;

       return 0;

     }

     if (fx * fa > 0.) {

       xa = x0;

       fa = fx;

     } else {

       xb = x0;

       fb = fx;

     }

   L3:

     u1 = f1 - f2;

     u2 = x1 - x2;

     u3 = f2 - fx;

     u4 = x2 - x0;

     if (u2 == 0. || u4 == 0.) {goto L1;}

     f3 = fx;

     x3 = x0;

     u1 /= u2;

     u2 = u3 / u4;

     ca = u1 - u2;

     cb = (x1 + x2) * u2 - (x2 + x0) * u1;

     cc = (x1 - x0) * f1 - x1 * (ca * x1 + cb);

     if (ca == 0.) {

       if (cb == 0.) {goto L1;}

       x0 = -cc / cb;

     } else {

       u3 = cb / (ca * 2);

       u4 = u3 * u3 - cc / ca;

       if (u4 < 0.) {goto L1;}

       su4 = fabs(u4);

       if (x0 + u3 < 0.f) {su4 = -su4;}

       x0 = -u3 + su4;

     }

     if (x0 < xa || x0 > xb) {goto L1;}

     // Computing MIN

     d__3 = (d__1 = x0 - x3, fabs(d__1)), d__4 = (d__2 = x0 - x2, fabs(d__2));

     rv = std::min(d__3,d__4);

     ee = eps * (fabs(x0) + 1);

     if (rv > ee) {

       f1 = f2;

       x1 = x2;

       f2 = f3;

       x2 = x3;

       goto L2;

     }

     fx = func(x0);

     if (fx == 0.) {

       rv = ee;

       ff = func(x0);

       return 0;

     }

     if (fx * fa < 0.) {

       xx = x0 - ee;

       if (xx <= xa) {

     rv = ee;

     ff = func(x0);

     return 0;

       }

       ff = func(xx);

       fb = ff;

       xb = xx;

     } else {

       xx = x0 + ee;

       if (xx >= xb) {

     rv = ee;

     ff = func(x0);

     return 0;

       }

       ff = func(xx);

       fa = ff;

       xa = xx;

     }

     if (fx * ff > 0.) {

       mc += 2;

       if (mc > mxf) {

     rv = (d__1 = xb - xa, fabs(d__1)) * -.5;

     x0 = 0.;

     return 0;

       }

       f1 = f3;

       x1 = x3;

       f2 = fx;

       x2 = x0;

       x0 = xx;

       fx = ff;

       goto L3;

     }

     /* L4: */

     rv = ee;

     ff = func(x0);

     return 0;

   } // dzero


 }

MetAnalyzer.u1
tuple u1
Definition: MetAnalyzer.py:59

benchmark_cfg.fb
string fb
Definition: benchmark_cfg.py:14

VVIObj::limits
void limits(double &xl, double &xu) const
density (mode=0) or distribution (mode=1) function
Definition: VVIObj.cc:184

create_public_lumi_plots.exp
tuple exp
Definition: create_public_lumi_plots.py:1087

createTree.pp
tuple pp
Definition: createTree.py:15

alignmentValidation.c1
tuple c1
do drawing
Definition: alignmentValidation.py:1023

funct::sin
Sin< T >::type sin(const T &t)
Definition: Sin.h:22

create_public_lumi_plots.log
log
Definition: create_public_lumi_plots.py:1102

VVIObj::a_
double a_[155]
Definition: VVIObj.h:43

lumiQueryAPI.q
tuple q
Definition: lumiQueryAPI.py:1839

VVIObj::t1_
double t1_
Definition: VVIObj.h:39

VVIObjDetails::sinint
double sinint(double x)
Private version of the cosine integral.
Definition: VVIObj.cc:271

alignBH_cfg.mode
list mode
Definition: alignBH_cfg.py:7

findQualityFiles.v
v
Definition: findQualityFiles.py:177

VVIObjDetails::dzero
int dzero(double a, double b, double &x0, double &rv, double eps, int mxf, F func)
Private version of the exponential integral.
Definition: VVIObj.cc:570

q2
double q2[4]
Definition: TauolaWrapper.h:88

VVIObj::b_
double b_[155]
Definition: VVIObj.h:44

counter.c2
tuple c2
Definition: counter.py:145

python.connectstrParser.f2
string f2
Definition: connectstrParser.py:80

VVIObjDetails::cosint
double cosint(double x)
Private version of the cosine and sine integral.
Definition: VVIObj.cc:193

p4
double p4[4]
Definition: TauolaWrapper.h:92

funct::cos
Cos< T >::type cos(const T &t)
Definition: Cos.h:22

VVIObj::omega_
double omega_
Definition: VVIObj.h:41

funct::abs
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

VVIObj::VVIObj
VVIObj(double kappa=0.01, double beta2=1., int mode=0)
Constructor.
Definition: VVIObj.cc:48

f
double f[11][100]
Definition: MuScleFitUtils.cc:78

VVIObj::x0_
double x0_
Definition: VVIObj.h:42

MetAnalyzer.u2
tuple u2
Definition: MetAnalyzer.py:60

min
T min(T a, T b)
Definition: MathUtil.h:58

VVIObj::fcn
double fcn(double x) const
Definition: VVIObj.cc:135

p2
double p2[4]
Definition: TauolaWrapper.h:90

VVIObjDetails::sincosint
void sincosint(double x, double &sint, double &cint)
Definition: VVIObj.cc:345

q1
double q1[4]
Definition: TauolaWrapper.h:87

detailsBasic3DVector::y
float float y
Definition: extBasic3DVector.h:15

prof2calltree.l
tuple l
Definition: prof2calltree.py:116

alignCSCRings.s
list s
Definition: alignCSCRings.py:91

b
double b
Definition: hdecay.h:120

VVIObj::t0_
double t0_
Definition: VVIObj.h:38

benchmark_cfg.fa
string fa
Definition: benchmark_cfg.py:13

gen::n
int n
Definition: Cascade2Hadronizer.cc:79

VVIObj.h

alignCSCRings.e
list e
Definition: alignCSCRings.py:90

AlCaHLTBitMon_ParallelJobs.p
tuple p
Definition: AlCaHLTBitMon_ParallelJobs.py:152

bookConverter.max
max
Definition: bookConverter.py:166

VVIObj::mode_
const int mode_
returns the limits on the non-zero (mode=0) or normalized region (mode=1)
Definition: VVIObj.h:37

p1
double p1[4]
Definition: TauolaWrapper.h:89

python.connectstrParser.f3
string f3
Definition: connectstrParser.py:85

VVIObj::t_
double t_
Definition: VVIObj.h:40

a
double a
Definition: hdecay.h:121

alignCSCRings.ff
tuple ff
Definition: alignCSCRings.py:147

kappa
static const G4double kappa
Definition: UrbanMscModel93.cc:72

x
Definition: DDAxes.h:10

F
static uInt32 F(BLOWFISH_CTX *ctx, uInt32 x)
Definition: blowfish.cc:281

relval_steps.k
list k
Definition: relval_steps.py:1469

VVIObjDetails::expint
double expint(double x)
Private version of the sine integral.
Definition: VVIObj.cc:448

p3
double p3[4]
Definition: TauolaWrapper.h:91

python.connectstrParser.f1
string f1
Definition: connectstrParser.py:75