Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/externals/clhep/src/BasicVector3D.cc

Version: [ ReleaseNotes ] [ 1.0 ] [ 1.1 ] [ 2.0 ] [ 3.0 ] [ 3.1 ] [ 3.2 ] [ 4.0 ] [ 4.0.p1 ] [ 4.0.p2 ] [ 4.1 ] [ 4.1.p1 ] [ 5.0 ] [ 5.0.p1 ] [ 5.1 ] [ 5.1.p1 ] [ 5.2 ] [ 5.2.p1 ] [ 5.2.p2 ] [ 6.0 ] [ 6.0.p1 ] [ 6.1 ] [ 6.2 ] [ 6.2.p1 ] [ 6.2.p2 ] [ 7.0 ] [ 7.0.p1 ] [ 7.1 ] [ 7.1.p1 ] [ 8.0 ] [ 8.0.p1 ] [ 8.1 ] [ 8.1.p1 ] [ 8.1.p2 ] [ 8.2 ] [ 8.2.p1 ] [ 8.3 ] [ 8.3.p1 ] [ 8.3.p2 ] [ 9.0 ] [ 9.0.p1 ] [ 9.0.p2 ] [ 9.1 ] [ 9.1.p1 ] [ 9.1.p2 ] [ 9.1.p3 ] [ 9.2 ] [ 9.2.p1 ] [ 9.2.p2 ] [ 9.2.p3 ] [ 9.2.p4 ] [ 9.3 ] [ 9.3.p1 ] [ 9.3.p2 ] [ 9.4 ] [ 9.4.p1 ] [ 9.4.p2 ] [ 9.4.p3 ] [ 9.4.p4 ] [ 9.5 ] [ 9.5.p1 ] [ 9.5.p2 ] [ 9.6 ] [ 9.6.p1 ] [ 9.6.p2 ] [ 9.6.p3 ] [ 9.6.p4 ] [ 10.0 ] [ 10.0.p1 ] [ 10.0.p2 ] [ 10.0.p3 ] [ 10.0.p4 ] [ 10.1 ] [ 10.1.p1 ] [ 10.1.p2 ] [ 10.1.p3 ] [ 10.2 ] [ 10.2.p1 ] [ 10.2.p2 ] [ 10.2.p3 ] [ 10.3 ] [ 10.3.p1 ] [ 10.3.p2 ] [ 10.3.p3 ] [ 10.4 ] [ 10.4.p1 ] [ 10.4.p2 ] [ 10.4.p3 ] [ 10.5 ] [ 10.5.p1 ] [ 10.6 ] [ 10.6.p1 ] [ 10.6.p2 ] [ 10.6.p3 ] [ 10.7 ] [ 10.7.p1 ] [ 10.7.p2 ] [ 10.7.p3 ] [ 10.7.p4 ] [ 11.0 ] [ 11.0.p1 ] [ 11.0.p2 ] [ 11.0.p3, ] [ 11.0.p4 ] [ 11.1 ] [ 11.1.1 ] [ 11.1.2 ] [ 11.1.3 ] [ 11.2 ] [ 11.2.1 ] [ 11.2.2 ] [ 11.3.0 ]

Diff markup

Differences between /externals/clhep/src/BasicVector3D.cc (Version 11.3.0) and /externals/clhep/src/BasicVector3D.cc (Version 10.7)


  1 // -*- C++ -*-                                      1 // -*- C++ -*-
  2 // -------------------------------------------      2 // ---------------------------------------------------------------------------
  3                                                     3 
  4 #include <cmath>                                    4 #include <cmath>
  5 #include <float.h>                                  5 #include <float.h>
  6 #include <iostream>                                 6 #include <iostream>
  7 #include "CLHEP/Geometry/BasicVector3D.h"           7 #include "CLHEP/Geometry/BasicVector3D.h"
  8                                                     8 
  9 namespace HepGeom {                                 9 namespace HepGeom {
 10   //------------------------------------------     10   //--------------------------------------------------------------------------
 11   template<>                                       11   template<>
 12   float BasicVector3D<float>::pseudoRapidity()     12   float BasicVector3D<float>::pseudoRapidity() const {
 13     float ma = mag(), dz = z();                    13     float ma = mag(), dz = z();
 14     if (ma ==  0)  return  0;                      14     if (ma ==  0)  return  0;
 15     if (ma ==  dz) return  FLT_MAX;                15     if (ma ==  dz) return  FLT_MAX;
 16     if (ma == -dz) return -FLT_MAX;                16     if (ma == -dz) return -FLT_MAX;
 17     return 0.5*std::log((ma+dz)/(ma-dz));          17     return 0.5*std::log((ma+dz)/(ma-dz));
 18   }                                                18   }
 19                                                    19 
 20   //------------------------------------------     20   //--------------------------------------------------------------------------
 21   template<>                                       21   template<>
 22   void BasicVector3D<float>::setEta(float a) {     22   void BasicVector3D<float>::setEta(float a) {
 23     double ma = mag();                             23     double ma = mag();
 24     if (ma == 0) return;                           24     if (ma == 0) return;
 25     double tanHalfTheta  = std::exp(-a);           25     double tanHalfTheta  = std::exp(-a);
 26     double tanHalfTheta2 = tanHalfTheta * tanH     26     double tanHalfTheta2 = tanHalfTheta * tanHalfTheta;
 27     double cosTheta1      = (1 - tanHalfTheta2     27     double cosTheta1      = (1 - tanHalfTheta2) / (1 + tanHalfTheta2);
 28     double rh            = ma * std::sqrt(1 -      28     double rh            = ma * std::sqrt(1 - cosTheta1*cosTheta1);
 29     double ph            = phi();                  29     double ph            = phi();
 30     set(rh*std::cos(ph), rh*std::sin(ph), ma*c     30     set(rh*std::cos(ph), rh*std::sin(ph), ma*cosTheta1);
 31   }                                                31   }
 32                                                    32 
 33   //------------------------------------------     33   //--------------------------------------------------------------------------
 34   template<>                                       34   template<>
 35   float BasicVector3D<float>::angle(const Basi     35   float BasicVector3D<float>::angle(const BasicVector3D<float> & v) const {
 36     double cosa = 0;                               36     double cosa = 0;
 37     double ptot = mag()*v.mag();                   37     double ptot = mag()*v.mag();
 38     if(ptot > 0) {                                 38     if(ptot > 0) {
 39       cosa = dot(v)/ptot;                          39       cosa = dot(v)/ptot;
 40       if(cosa >  1) cosa =  1;                     40       if(cosa >  1) cosa =  1;
 41       if(cosa < -1) cosa = -1;                     41       if(cosa < -1) cosa = -1;
 42     }                                              42     }
 43     return std::acos(cosa);                        43     return std::acos(cosa);
 44   }                                                44   }
 45                                                    45 
 46   //------------------------------------------     46   //--------------------------------------------------------------------------
 47   template<>                                       47   template<>
 48   BasicVector3D<float> & BasicVector3D<float>:     48   BasicVector3D<float> & BasicVector3D<float>::rotateX(float a) {
 49     double sina = std::sin(a), cosa = std::cos     49     double sina = std::sin(a), cosa = std::cos(a), dy = y(), dz = z();
 50     setY(dy*cosa-dz*sina);                         50     setY(dy*cosa-dz*sina);
 51     setZ(dz*cosa+dy*sina);                         51     setZ(dz*cosa+dy*sina);
 52     return *this;                                  52     return *this;
 53   }                                                53   }
 54                                                    54 
 55   //------------------------------------------     55   //--------------------------------------------------------------------------
 56   template<>                                       56   template<>
 57   BasicVector3D<float> & BasicVector3D<float>:     57   BasicVector3D<float> & BasicVector3D<float>::rotateY(float a) {
 58     double sina = std::sin(a), cosa = std::cos     58     double sina = std::sin(a), cosa = std::cos(a), dz = z(), dx = x();
 59     setZ(dz*cosa-dx*sina);                         59     setZ(dz*cosa-dx*sina);
 60     setX(dx*cosa+dz*sina);                         60     setX(dx*cosa+dz*sina);
 61     return *this;                                  61     return *this;
 62   }                                                62   }
 63                                                    63 
 64   //------------------------------------------     64   //--------------------------------------------------------------------------
 65   template<>                                       65   template<>
 66   BasicVector3D<float> & BasicVector3D<float>:     66   BasicVector3D<float> & BasicVector3D<float>::rotateZ(float a) {
 67     double sina = std::sin(a), cosa = std::cos     67     double sina = std::sin(a), cosa = std::cos(a), dx = x(), dy = y();
 68     setX(dx*cosa-dy*sina);                         68     setX(dx*cosa-dy*sina);
 69     setY(dy*cosa+dx*sina);                         69     setY(dy*cosa+dx*sina);
 70     return *this;                                  70     return *this;
 71   }                                                71   }
 72                                                    72 
 73   //------------------------------------------     73   //--------------------------------------------------------------------------
 74   template<>                                       74   template<>
 75   BasicVector3D<float> &                           75   BasicVector3D<float> &
 76   BasicVector3D<float>::rotate(float a, const      76   BasicVector3D<float>::rotate(float a, const BasicVector3D<float> & v) {
 77     if (a  == 0) return *this;                     77     if (a  == 0) return *this;
 78     double cx = v.x(), cy = v.y(), cz = v.z();     78     double cx = v.x(), cy = v.y(), cz = v.z();
 79     double ll = std::sqrt(cx*cx + cy*cy + cz*c     79     double ll = std::sqrt(cx*cx + cy*cy + cz*cz);
 80     if (ll == 0) {                                 80     if (ll == 0) {
 81       std::cerr << "BasicVector<float>::rotate     81       std::cerr << "BasicVector<float>::rotate() : zero axis" << std::endl;
 82       return *this;                                82       return *this;
 83     }                                              83     }
 84     double cosa = std::cos(a), sina = std::sin     84     double cosa = std::cos(a), sina = std::sin(a);
 85     cx /= ll; cy /= ll; cz /= ll;                  85     cx /= ll; cy /= ll; cz /= ll;   
 86                                                    86 
 87     double xx = cosa + (1-cosa)*cx*cx;             87     double xx = cosa + (1-cosa)*cx*cx;
 88     double xy =        (1-cosa)*cx*cy - sina*c     88     double xy =        (1-cosa)*cx*cy - sina*cz;
 89     double xz =        (1-cosa)*cx*cz + sina*c     89     double xz =        (1-cosa)*cx*cz + sina*cy;
 90                                                    90     
 91     double yx =        (1-cosa)*cy*cx + sina*c     91     double yx =        (1-cosa)*cy*cx + sina*cz;
 92     double yy = cosa + (1-cosa)*cy*cy;             92     double yy = cosa + (1-cosa)*cy*cy; 
 93     double yz =        (1-cosa)*cy*cz - sina*c     93     double yz =        (1-cosa)*cy*cz - sina*cx;
 94                                                    94     
 95     double zx =        (1-cosa)*cz*cx - sina*c     95     double zx =        (1-cosa)*cz*cx - sina*cy;
 96     double zy =        (1-cosa)*cz*cy + sina*c     96     double zy =        (1-cosa)*cz*cy + sina*cx;
 97     double zz = cosa + (1-cosa)*cz*cz;             97     double zz = cosa + (1-cosa)*cz*cz;
 98                                                    98 
 99     cx = x(); cy = y(); cz = z();                  99     cx = x(); cy = y(); cz = z();   
100     set(xx*cx+xy*cy+xz*cz, yx*cx+yy*cy+yz*cz,     100     set(xx*cx+xy*cy+xz*cz, yx*cx+yy*cy+yz*cz, zx*cx+zy*cy+zz*cz);
101     return *this;                                 101     return *this;
102   }                                               102   }
103                                                   103 
104   //------------------------------------------    104   //--------------------------------------------------------------------------
105   std::ostream &                                  105   std::ostream &
106   operator<<(std::ostream & os, const BasicVec    106   operator<<(std::ostream & os, const BasicVector3D<float> & a)
107   {                                               107   {
108     return os << "(" << a.x() << "," << a.y()     108     return os << "(" << a.x() << "," << a.y() << "," << a.z() << ")";
109   }                                               109   }
110                                                   110 
111   //------------------------------------------    111   //--------------------------------------------------------------------------
112   std::istream &                                  112   std::istream &
113   operator>> (std::istream & is, BasicVector3D    113   operator>> (std::istream & is, BasicVector3D<float> & a)
114   {                                               114   {
115     // Required format is ( a, b, c ) that is,    115     // Required format is ( a, b, c ) that is, three numbers, preceded by
116     // (, followed by ), and separated by comm    116     // (, followed by ), and separated by commas.  The three numbers are
117     // taken as x, y, z.                          117     // taken as x, y, z.
118                                                   118 
119     float x, y, z;                                119     float x, y, z;
120     char c;                                       120     char c;
121                                                   121 
122     is >> std::ws >> c;                           122     is >> std::ws >> c;
123     // ws is defined to invoke eatwhite(istrea    123     // ws is defined to invoke eatwhite(istream & )
124     // see (Stroustrup gray book) page 333 and    124     // see (Stroustrup gray book) page 333 and 345.
125     if (is.fail() || c != '(' ) {                 125     if (is.fail() || c != '(' ) {
126       std::cerr                                   126       std::cerr
127   << "Could not find required opening parenthe    127   << "Could not find required opening parenthesis "
128   << "in input of a BasicVector3D<float>"         128   << "in input of a BasicVector3D<float>"
129   << std::endl;                                   129   << std::endl;
130       return is;                                  130       return is;
131     }                                             131     }
132                                                   132 
133     is >> x >> std::ws >> c;                      133     is >> x >> std::ws >> c;
134     if (is.fail() || c != ',' ) {                 134     if (is.fail() || c != ',' ) {
135       std::cerr                                   135       std::cerr
136   << "Could not find x value and required trai    136   << "Could not find x value and required trailing comma "
137   << "in input of a BasicVector3D<float>"         137   << "in input of a BasicVector3D<float>"
138   << std::endl;                                   138   << std::endl; 
139       return is;                                  139       return is;
140     }                                             140     }
141                                                   141 
142     is >> y >> std::ws >> c;                      142     is >> y >> std::ws >> c;
143     if (is.fail() || c != ',' ) {                 143     if (is.fail() || c != ',' ) {
144       std::cerr                                   144       std::cerr
145   << "Could not find y value and required trai    145   << "Could not find y value and required trailing comma "
146   <<  "in input of a BasicVector3D<float>"        146   <<  "in input of a BasicVector3D<float>"
147   << std::endl;                                   147   << std::endl;
148       return is;                                  148       return is;
149     }                                             149     }
150                                                   150 
151     is >> z >> std::ws >> c;                      151     is >> z >> std::ws >> c;
152     if (is.fail() || c != ')' ) {                 152     if (is.fail() || c != ')' ) {
153       std::cerr                                   153       std::cerr
154   << "Could not find z value and required clos    154   << "Could not find z value and required close parenthesis "
155   << "in input of a BasicVector3D<float>"         155   << "in input of a BasicVector3D<float>"
156   << std::endl;                                   156   << std::endl;
157       return is;                                  157       return is;
158     }                                             158     }
159                                                   159 
160     a.setX(x);                                    160     a.setX(x);
161     a.setY(y);                                    161     a.setY(y);
162     a.setZ(z);                                    162     a.setZ(z);
163     return is;                                    163     return is;
164   }                                               164   }
165                                                   165   
166   //------------------------------------------    166   //--------------------------------------------------------------------------
167   template<>                                      167   template<>
168   double BasicVector3D<double>::pseudoRapidity    168   double BasicVector3D<double>::pseudoRapidity() const {
169     double ma = mag(), dz = z();                  169     double ma = mag(), dz = z();
170     if (ma ==  0)  return  0;                     170     if (ma ==  0)  return  0;
171     if (ma ==  dz) return  DBL_MAX;               171     if (ma ==  dz) return  DBL_MAX;
172     if (ma == -dz) return -DBL_MAX;               172     if (ma == -dz) return -DBL_MAX;
173     return 0.5*std::log((ma+dz)/(ma-dz));         173     return 0.5*std::log((ma+dz)/(ma-dz));
174   }                                               174   }
175                                                   175 
176   //------------------------------------------    176   //--------------------------------------------------------------------------
177   template<>                                      177   template<>
178   void BasicVector3D<double>::setEta(double a)    178   void BasicVector3D<double>::setEta(double a) {
179     double ma = mag();                            179     double ma = mag();
180     if (ma == 0) return;                          180     if (ma == 0) return;
181     double tanHalfTheta  = std::exp(-a);          181     double tanHalfTheta  = std::exp(-a);
182     double tanHalfTheta2 = tanHalfTheta * tanH    182     double tanHalfTheta2 = tanHalfTheta * tanHalfTheta;
183     double cosTheta1      = (1 - tanHalfTheta2    183     double cosTheta1      = (1 - tanHalfTheta2) / (1 + tanHalfTheta2);
184     double rh            = ma * std::sqrt(1 -     184     double rh            = ma * std::sqrt(1 - cosTheta1*cosTheta1);
185     double ph            = phi();                 185     double ph            = phi();
186     set(rh*std::cos(ph), rh*std::sin(ph), ma*c    186     set(rh*std::cos(ph), rh*std::sin(ph), ma*cosTheta1);
187   }                                               187   }
188                                                   188 
189   //------------------------------------------    189   //--------------------------------------------------------------------------
190   template<>                                      190   template<>
191   double BasicVector3D<double>::angle(const Ba    191   double BasicVector3D<double>::angle(const BasicVector3D<double> & v) const {
192     double cosa = 0;                              192     double cosa = 0;
193     double ptot = mag()*v.mag();                  193     double ptot = mag()*v.mag();
194     if(ptot > 0) {                                194     if(ptot > 0) {
195       cosa = dot(v)/ptot;                         195       cosa = dot(v)/ptot;
196       if(cosa >  1) cosa =  1;                    196       if(cosa >  1) cosa =  1;
197       if(cosa < -1) cosa = -1;                    197       if(cosa < -1) cosa = -1;
198     }                                             198     }
199     return std::acos(cosa);                       199     return std::acos(cosa);
200   }                                               200   }
201                                                   201 
202   //------------------------------------------    202   //--------------------------------------------------------------------------
203   template<>                                      203   template<>
204   BasicVector3D<double> & BasicVector3D<double    204   BasicVector3D<double> & BasicVector3D<double>::rotateX(double a) {
205     double sina = std::sin(a), cosa = std::cos    205     double sina = std::sin(a), cosa = std::cos(a), dy = y(), dz = z();
206     setY(dy*cosa-dz*sina);                        206     setY(dy*cosa-dz*sina);
207     setZ(dz*cosa+dy*sina);                        207     setZ(dz*cosa+dy*sina);
208     return *this;                                 208     return *this;
209   }                                               209   }
210                                                   210 
211   //------------------------------------------    211   //--------------------------------------------------------------------------
212   template<>                                      212   template<>
213   BasicVector3D<double> & BasicVector3D<double    213   BasicVector3D<double> & BasicVector3D<double>::rotateY(double a) {
214     double sina = std::sin(a), cosa = std::cos    214     double sina = std::sin(a), cosa = std::cos(a), dz = z(), dx = x();
215     setZ(dz*cosa-dx*sina);                        215     setZ(dz*cosa-dx*sina);
216     setX(dx*cosa+dz*sina);                        216     setX(dx*cosa+dz*sina);
217     return *this;                                 217     return *this;
218   }                                               218   }
219                                                   219 
220   //------------------------------------------    220   //--------------------------------------------------------------------------
221   template<>                                      221   template<>
222   BasicVector3D<double> & BasicVector3D<double    222   BasicVector3D<double> & BasicVector3D<double>::rotateZ(double a) {
223     double sina = std::sin(a), cosa = std::cos    223     double sina = std::sin(a), cosa = std::cos(a), dx = x(), dy = y();
224     setX(dx*cosa-dy*sina);                        224     setX(dx*cosa-dy*sina);
225     setY(dy*cosa+dx*sina);                        225     setY(dy*cosa+dx*sina);
226     return *this;                                 226     return *this;
227   }                                               227   }
228                                                   228 
229   //------------------------------------------    229   //--------------------------------------------------------------------------
230   template<>                                      230   template<>
231   BasicVector3D<double> &                         231   BasicVector3D<double> &
232   BasicVector3D<double>::rotate(double a, cons    232   BasicVector3D<double>::rotate(double a, const BasicVector3D<double> & v) {
233     if (a  == 0) return *this;                    233     if (a  == 0) return *this;
234     double cx = v.x(), cy = v.y(), cz = v.z();    234     double cx = v.x(), cy = v.y(), cz = v.z();
235     double ll = std::sqrt(cx*cx + cy*cy + cz*c    235     double ll = std::sqrt(cx*cx + cy*cy + cz*cz);
236     if (ll == 0) {                                236     if (ll == 0) {
237       std::cerr << "BasicVector<double>::rotat    237       std::cerr << "BasicVector<double>::rotate() : zero axis" << std::endl;
238       return *this;                               238       return *this;
239     }                                             239     }
240     double cosa = std::cos(a), sina = std::sin    240     double cosa = std::cos(a), sina = std::sin(a);
241     cx /= ll; cy /= ll; cz /= ll;                 241     cx /= ll; cy /= ll; cz /= ll;   
242                                                   242 
243     double xx = cosa + (1-cosa)*cx*cx;            243     double xx = cosa + (1-cosa)*cx*cx;
244     double xy =        (1-cosa)*cx*cy - sina*c    244     double xy =        (1-cosa)*cx*cy - sina*cz;
245     double xz =        (1-cosa)*cx*cz + sina*c    245     double xz =        (1-cosa)*cx*cz + sina*cy;
246                                                   246     
247     double yx =        (1-cosa)*cy*cx + sina*c    247     double yx =        (1-cosa)*cy*cx + sina*cz;
248     double yy = cosa + (1-cosa)*cy*cy;            248     double yy = cosa + (1-cosa)*cy*cy; 
249     double yz =        (1-cosa)*cy*cz - sina*c    249     double yz =        (1-cosa)*cy*cz - sina*cx;
250                                                   250     
251     double zx =        (1-cosa)*cz*cx - sina*c    251     double zx =        (1-cosa)*cz*cx - sina*cy;
252     double zy =        (1-cosa)*cz*cy + sina*c    252     double zy =        (1-cosa)*cz*cy + sina*cx;
253     double zz = cosa + (1-cosa)*cz*cz;            253     double zz = cosa + (1-cosa)*cz*cz;
254                                                   254 
255     cx = x(); cy = y(); cz = z();                 255     cx = x(); cy = y(); cz = z();   
256     set(xx*cx+xy*cy+xz*cz, yx*cx+yy*cy+yz*cz,     256     set(xx*cx+xy*cy+xz*cz, yx*cx+yy*cy+yz*cz, zx*cx+zy*cy+zz*cz);
257     return *this;                                 257     return *this;
258   }                                               258   }
259                                                   259 
260   //------------------------------------------    260   //--------------------------------------------------------------------------
261   std::ostream &                                  261   std::ostream &
262   operator<< (std::ostream & os, const BasicVe    262   operator<< (std::ostream & os, const BasicVector3D<double> & a)
263   {                                               263   {
264     return os << "(" << a.x() << "," << a.y()     264     return os << "(" << a.x() << "," << a.y() << "," << a.z() << ")";
265   }                                               265   }
266                                                   266   
267   //------------------------------------------    267   //--------------------------------------------------------------------------
268   std::istream &                                  268   std::istream &
269   operator>> (std::istream & is, BasicVector3D    269   operator>> (std::istream & is, BasicVector3D<double> & a)
270   {                                               270   {
271     // Required format is ( a, b, c ) that is,    271     // Required format is ( a, b, c ) that is, three numbers, preceded by
272     // (, followed by ), and separated by comm    272     // (, followed by ), and separated by commas.  The three numbers are
273     // taken as x, y, z.                          273     // taken as x, y, z.
274                                                   274     
275     double x, y, z;                               275     double x, y, z;
276     char c;                                       276     char c;
277                                                   277     
278     is >> std::ws >> c;                           278     is >> std::ws >> c;
279     // ws is defined to invoke eatwhite(istrea    279     // ws is defined to invoke eatwhite(istream & )
280     // see (Stroustrup gray book) page 333 and    280     // see (Stroustrup gray book) page 333 and 345.
281     if (is.fail() || c != '(' ) {                 281     if (is.fail() || c != '(' ) {
282       std::cerr                                   282       std::cerr
283   << "Could not find required opening parenthe    283   << "Could not find required opening parenthesis "
284   << "in input of a BasicVector3D<double>"        284   << "in input of a BasicVector3D<double>"
285   << std::endl;                                   285   << std::endl;
286       return is;                                  286       return is;
287     }                                             287     }
288                                                   288 
289     is >> x >> std::ws >> c;                      289     is >> x >> std::ws >> c;
290     if (is.fail() || c != ',' ) {                 290     if (is.fail() || c != ',' ) {
291       std::cerr                                   291       std::cerr
292   << "Could not find x value and required trai    292   << "Could not find x value and required trailing comma "
293   << "in input of a BasicVector3D<double>"        293   << "in input of a BasicVector3D<double>"
294   << std::endl;                                   294   << std::endl; 
295       return is;                                  295       return is;
296     }                                             296     }
297                                                   297 
298     is >> y >> std::ws >> c;                      298     is >> y >> std::ws >> c;
299     if (is.fail() || c != ',' ) {                 299     if (is.fail() || c != ',' ) {
300       std::cerr                                   300       std::cerr
301   << "Could not find y value and required trai    301   << "Could not find y value and required trailing comma "
302   <<  "in input of a BasicVector3D<double>"       302   <<  "in input of a BasicVector3D<double>"
303   << std::endl;                                   303   << std::endl;
304       return is;                                  304       return is;
305     }                                             305     }
306                                                   306 
307     is >> z >> std::ws >> c;                      307     is >> z >> std::ws >> c;
308     if (is.fail() || c != ')' ) {                 308     if (is.fail() || c != ')' ) {
309       std::cerr                                   309       std::cerr
310   << "Could not find z value and required clos    310   << "Could not find z value and required close parenthesis "
311   << "in input of a BasicVector3D<double>"        311   << "in input of a BasicVector3D<double>"
312   << std::endl;                                   312   << std::endl;
313       return is;                                  313       return is;
314     }                                             314     }
315                                                   315 
316     a.setX(x);                                    316     a.setX(x);
317     a.setY(y);                                    317     a.setY(y);
318     a.setZ(z);                                    318     a.setZ(z);
319     return is;                                    319     return is;
320   }                                               320   }
321 } /* namespace HepGeom */                         321 } /* namespace HepGeom */
322                                                   322