00001 using namespace std;
00002
00003 #include <cmath>
00004 #include <iostream>
00005 #include <fstream>
00006 #include <vector>
00007 #include "DetectorDescription/Parser/interface/DDLParser.h"
00008 #include "DetectorDescription/Parser/interface/FIPConfiguration.h"
00009 #include "DetectorDescription/Algorithm/src/AlgoInit.h"
00010
00011 #include "DetectorDescription/Core/interface/DDCompactView.h"
00012 #include "DetectorDescription/Core/interface/DDExpandedView.h"
00013 #include "CLHEP/Units/GlobalSystemOfUnits.h"
00014
00015 #include "DetectorDescription/Core/interface/DDRoot.h"
00016 #include "DetectorDescription/Core/interface/DDLogicalPart.h"
00017 #include "DetectorDescription/Core/interface/DDMaterial.h"
00018 #include "DetectorDescription/Core/interface/DDSolid.h"
00019 #include "DetectorDescription/Core/interface/DDTransform.h"
00020
00021 #include "DetectorDescription/ExprAlgo/interface/ExprEvalSingleton.h"
00022
00023 #include <Math/RotationZ.h>
00024 #include <Math/AxisAngle.h>
00025
00026
00027
00028
00029
00030
00031
00032
00033
00034
00035
00036
00037 void regressionTest_setup() {
00038 ExprEvalInterface & eval = ExprEval::instance();
00039
00040 string ns = "setup";
00041
00042
00043 eval.set(ns,"length","20.*m");
00044
00045
00046 eval.set(ns,"corner","[length]/4.");
00047
00048
00049 DDName worldName("world",ns);
00050 DDName airName("Air",ns);
00051 DDName nitrogenName("Nitrogen","elements");
00052 DDName oxygenName("Oxygen","elements");
00053
00054 DDSolidFactory::box(worldName, eval.eval(ns,"[length]/2."),
00055 eval.eval(ns,"[length]/2."),
00056 eval.eval(ns,"[length]/2."));
00057
00058 DDLogicalPart(worldName,
00059 airName,
00060 worldName
00061 );
00062
00063 DDMaterial air(airName,eval.eval(ns,"1.214*mg/cm3"));
00064 air.addMaterial(DDMaterial(nitrogenName),eval.eval(ns,"0.75"));
00065 air.addMaterial(DDMaterial(oxygenName),eval.eval(ns,"0.25"));
00066
00067 cout << air << endl;
00068
00069 DDMaterial(nitrogenName,
00070 eval.eval(ns,"7"),
00071 eval.eval(ns,"14.007*g/mole"),
00072 eval.eval(ns,"0.808*g/cm3") );
00073
00074 DDMaterial(oxygenName,
00075 eval.eval(ns,"8"),
00076 eval.eval(ns,"15.999*g/mole"),
00077 eval.eval(ns,"1.43*g/cm3") );
00078
00079 cout << air << endl;
00080
00081
00082 DDRotationMatrix * r0 = new DDRotationMatrix();
00083 DDRotationMatrix * r30 = new DDRotationMatrix(ROOT::Math::RotationZ(30.*deg));
00084 DDRotationMatrix * r60 = new DDRotationMatrix(ROOT::Math::RotationZ(60.*deg));
00085 DDRotationMatrix * r90 = new DDRotationMatrix(ROOT::Math::RotationZ(90.*deg));
00086
00087 DDrot(DDName("Unit",ns),r0);
00088 DDrot(DDName("R30",ns),r30);
00089 DDrot(DDName("R60",ns),r60);
00090 DDrot(DDName("R90",ns),r90);
00091
00092 DDSolid collectorSolid = DDSolidFactory::shapeless(DDName("group",ns));
00093
00094 DDRootDef::instance().set(worldName);
00095 }
00096
00098
00099
00100
00101
00102
00103
00104
00105
00106
00107
00108
00109
00110
00111 void regressionTest_first( ) {
00113 AlgoInit();
00114 DDCompactView cpv;
00115 cout << "main::initialize DDL parser" << endl;
00116 DDLParser myP(cpv);
00117
00118 cout << "main::about to set configuration" << endl;
00119
00120 ExprEvalInterface & eval = ExprEval::instance();
00121 string ns("first");
00122 DDSolid support = DDSolidFactory::box(DDName("support",ns),
00123 eval.eval(ns,"[setup:corner]/4."),
00124 eval.eval(ns,"[setup:corner]/8."),
00125 eval.eval(ns,"[setup:corner]/4.")
00126 );
00127 DDSolid sensor = DDSolidFactory::box(DDName("sensor",ns),
00128 eval.eval(ns,"[setup:corner]/16."),
00129 eval.eval(ns,"[setup:corner]/16."),
00130 eval.eval(ns,"[setup:corner]/16.")
00131 );
00132
00133 DDLogicalPart supportLP(DDName("support",ns),
00134 DDName("Oxygen","elements"),
00135 DDName("support",ns));
00136
00137 DDLogicalPart sensorLP(DDName("sensor",ns),
00138 DDName("Nitrogen","elements"),
00139 DDName("sensor",ns));
00140
00141 DDLogicalPart part(DDName("group",ns),
00142 DDName("Air","setup"),
00143 DDName("group","setup")
00144 );
00145
00146 DDRotation r30(DDName("R30","setup"));
00147 DDRotation r60(DDName("R60","setup"));
00148 DDRotation r90(DDName("R90","setup"));
00149 DDRotation unit(DDName("Unit","setup"));
00150 DDTranslation t0;
00151 DDTranslation t1(eval.eval(ns,"[setup:corner]/8."),
00152 eval.eval(ns,"[setup:corner]/16."),
00153 eval.eval(ns,"[setup:corner]/8.")
00154 );
00155 DDTranslation t2(eval.eval(ns,"[setup:corner]*1.25*cos(0.)"),
00156 eval.eval(ns,"[setup:corner]*1.25*sin(0.)"),
00157 eval.eval(ns,"0."));
00158 DDTranslation t3(eval.eval(ns,"[setup:corner]*1.25*cos(30.*deg)"),
00159 eval.eval(ns,"[setup:corner]*1.25*sin(30.*deg)"),
00160 eval.eval(ns,"0."));
00161 DDTranslation t4(eval.eval(ns,"[setup:corner]*1.25*cos(60.*deg)"),
00162 eval.eval(ns,"[setup:corner]*1.25*sin(60.*deg)"),
00163 eval.eval(ns,"0."));
00164 DDTranslation t5(eval.eval(ns,"[setup:corner]*1.25*cos(90.*deg)"),
00165 eval.eval(ns,"[setup:corner]*1.25*sin(90.*deg)"),
00166 eval.eval(ns,"0."));
00167
00168 cpv.position(sensorLP, supportLP, std::string("1"), t1, unit);
00169 cpv.position(supportLP, part, std::string("1"), t2, unit);
00170 cpv.position(supportLP, part, std::string("2"), t3, r30);
00171 cpv.position(supportLP, part, std::string("3"), t4, r60);
00172 cpv.position(supportLP, part, std::string("4"), t5, r90);
00173
00174 DDRotationMatrix * rm = new DDRotationMatrix(ROOT::Math::AxisAngle(DD3Vector(1.,1.,1.),20.*deg));
00175 DDRotation rw= DDrot(DDName("group", ns), rm);
00176 DDLogicalPart ws(DDName("world","setup"));
00177 cpv.position(part, ws, std::string("1"), t0, rw);
00178 }
00179
00180
00181 void output(string filename)
00182 {
00183 ostream & os(cout);
00184
00185 os << "Starting Regressiontest Output" << endl;
00187 AlgoInit();
00188 DDCompactView cpv;
00189 cout << "main::initialize DDL parser" << endl;
00190 DDLParser myP(cpv);
00191
00192 cout << "main::about to set configuration" << endl;
00193
00194 FIPConfiguration cf(cpv);
00195 cf.readConfig("DetectorDescription/RegressionTest/test/configuration.xml");
00196
00197 cout << "main::about to start parsing" << endl;
00198
00199 myP.parse(cf);
00200
00201 cout << "main::completed Parser" << endl;
00202
00203 DDExpandedView exv(cpv);
00204 vector<DDTranslation> tvec;
00205 bool loop=true;
00206 std::cout << "Before the loop..." << std::endl;
00207 while(loop) {
00208 ROOT::Math::AxisAngle ra(exv.rotation());
00209 os << exv.logicalPart() << endl
00210 << " " << exv.logicalPart().material() << endl
00211 << " " << exv.logicalPart().solid() << endl
00212 << " " << exv.translation() << endl;
00213 os << " " << ra.Axis() << ra.Angle()/deg << endl;
00214 tvec.push_back(exv.translation());
00215 loop = exv.next();
00216 }
00217
00218 vector<DDTranslation>::iterator it = tvec.begin();
00219 os << endl << "center points of all solids" << endl;
00220 for (; it != tvec.end(); ++it) {
00221 os << (*it).x() << " " << (*it).y() << " " << (*it).z() << endl;
00222 }
00223 }
00224
00225 void testParser()
00226 {
00227 try {
00228 cout << "main:: initialize" << endl;
00229 AlgoInit();
00230 DDCompactView cpv;
00231 cout << "main::initialize DDL parser" << endl;
00232 DDLParser myP(cpv);
00233
00234 cout << "main::about to set configuration" << endl;
00235
00236 FIPConfiguration cf(cpv);
00237 cf.readConfig("DetectorDescription/RegressionTest/test/configuration.xml");
00238
00239 cout << "main::about to start parsing" << endl;
00240
00241 myP.parse(cf);
00242
00243 cout << "main::completed Parser" << endl;
00244
00245 cout << endl << endl << "main::Start checking!" << endl << endl;
00246
00247 }
00248 catch (DDException& e)
00249 {
00250 cout << "main::PROBLEM:" << endl
00251 << " " << e << endl;
00252 }
00253 }
00254
00255 void printRot(const DDRotationMatrix & rot) {
00256 std::cout << "rot asis\n" << rot << std::endl;
00257 DD3Vector x,y,z; const_cast<DDRotationMatrix &>(rot).GetComponents(x,y,z);
00258 std::cout << "components\n"
00259 << x << "\n"
00260 << y << "\n"
00261 << z << std::endl;
00262 cout << "phiX=" << x.phi() << " or in degrees = "
00263 << x.phi()/deg << endl;
00264 cout << "thetaX=" << x.theta() << " or in degrees = "
00265 << x.theta()/deg << endl;
00266 cout << "phiY=" << y.phi() << " or in degrees = "
00267 << y.phi()/deg << endl;
00268 cout << "thetaY=" << y.theta() << " or in degrees = "
00269 << y.theta()/deg << endl;
00270 cout << "phiZ=" << z.phi() << " or in degrees = "
00271 << z.phi()/deg << endl;
00272 cout << "thetaZ=" << z.theta() << " or in degrees = "
00273 << z.theta()/deg << endl;
00274
00275 cout << "some factor/equations..." << endl;
00276 cout << " sin(thetaX()) * cos(phiX()) = "
00277 << sin(x.theta()) * cos(x.phi()) << endl;
00278
00279 }
00280
00281 void testrot()
00282 {
00283
00284 {
00285 ROOT::Math::AxisAngle aa(DD3Vector(1.,1.,1.), 20.*deg);
00286 DDRotationMatrix rm(aa);
00287 cout << "DD3Vector was " << DD3Vector(1.,1.,1.) << " and the rotation was 20*deg around that axis." << endl;
00288 printRot(rm);
00289 }
00290 {
00291 DDRotationMatrix rm(1,0,0, 0,-1,0, 0,0,1);
00292 cout << "(1,0,0, 0,-1,0, 0,0,1)" << endl;
00293 printRot(rm);
00294 }
00295 }