[155] | 1 | #include "elementRfgun.h" |
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| 2 | |
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| 3 | #include "mathematicalTools.h" |
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[304] | 4 | #include "PhysicalConstants.h" |
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[155] | 5 | #include "mixedTools.h" |
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| 6 | |
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| 7 | |
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| 8 | elementRfgun::elementRfgun() : abstractElement() |
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[359] | 9 | { |
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[424] | 10 | setDefaultValues(); |
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| 11 | setDefaults(); |
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| 12 | elementName_ = nomdElements("rfgun"); |
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| 13 | nbParam_ = elementName_.getElementNbParameters(); |
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| 14 | parametersString_ = new string[nbParam_+1]; |
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| 15 | // parmelaOk_ = true; |
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| 16 | // registerAcceptableSoftware(nomDeLogiciel::parmela, TBoolOk); |
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| 17 | // registerAcceptableSoftware(nomDeLogiciel::generator, TBoolOk); |
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[359] | 18 | } |
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[155] | 19 | |
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[359] | 20 | void elementRfgun::setDefaultValues() |
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| 21 | { |
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[424] | 22 | defaultSpecificName_ = "rfgun"; |
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| 23 | defaultPhaseStep_ = 1.0; |
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| 24 | defaultNmacrop_ = 0; |
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| 25 | defaultSigma_t_ = 0.0; |
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| 26 | defaultSigma_r_ = 0.0; |
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| 27 | defaultEmit_x_ = 0.0; |
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| 28 | defaultEmit_y_ = 0.0; |
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| 29 | defaultE_cin_ = 0.0; |
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| 30 | defaultSigma_E_ = 0.0; |
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| 31 | // defaultNb_true_particles_ = 1.0; |
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| 32 | defaultTotalCharge_ = 0.0; |
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| 33 | } |
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[155] | 34 | |
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[424] | 35 | void elementRfgun::setDefaults() |
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| 36 | { |
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| 37 | specificName_ = defaultSpecificName_; |
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| 38 | phaseStep_ = defaultPhaseStep_; |
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| 39 | nmacrop_ = defaultNmacrop_; |
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| 40 | sigma_t_ = defaultSigma_t_; |
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| 41 | sigma_r_ = defaultSigma_r_ ; |
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| 42 | emit_x_ = defaultEmit_x_; |
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| 43 | emit_y_ = defaultEmit_y_; |
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| 44 | E_cin_ = defaultE_cin_; |
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| 45 | sigma_E_ = defaultSigma_E_; |
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| 46 | // nb_true_particles_ = defaultNb_true_particles_ ; |
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| 47 | totalCharge_ = defaultTotalCharge_; |
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| 48 | } |
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[155] | 49 | |
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[359] | 50 | string* elementRfgun::getParametersString() const |
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[424] | 51 | { |
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| 52 | int compteur = -1; |
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| 53 | parametersString_[++compteur] = mixedTools::intToString(nbParam_); |
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[418] | 54 | parametersString_[++compteur] = specificName_; |
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[424] | 55 | parametersString_[++compteur] = mixedTools::intToString(nmacrop_); |
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| 56 | parametersString_[++compteur] = mixedTools::doubleToString(sigma_t_); |
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| 57 | parametersString_[++compteur] = mixedTools::doubleToString(sigma_r_); |
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| 58 | parametersString_[++compteur] = mixedTools::doubleToString(emit_x_); |
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| 59 | parametersString_[++compteur] = mixedTools::doubleToString(emit_y_); |
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| 60 | parametersString_[++compteur] = mixedTools::doubleToString(E_cin_); |
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| 61 | parametersString_[++compteur] = mixedTools::doubleToString(sigma_E_); |
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| 62 | parametersString_[++compteur] = mixedTools::doubleToString(totalCharge_); |
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| 63 | return parametersString_; |
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| 64 | } |
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[155] | 65 | |
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[424] | 66 | void elementRfgun::setParametersString(string* param) |
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| 67 | { |
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| 68 | if ( param == NULL ) { |
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| 69 | cerr << " elementRfgun::setParametersString parameters empty parameter set"; |
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| 70 | return; |
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[155] | 71 | } |
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[424] | 72 | int compteur = -1; |
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| 73 | int nbparam = atoi(param[++compteur].c_str()); |
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| 74 | if ( nbparam != nbParam_ ) { |
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| 75 | cerr << " elementRfgun::setParametersString parameters do not match for a DRIFT"; |
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| 76 | return; |
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| 77 | } |
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| 78 | |
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| 79 | specificName_ = param[++compteur]; |
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| 80 | nmacrop_ = atoi(param[++compteur].c_str()); |
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| 81 | sigma_t_ = atof(param[++compteur].c_str()); |
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| 82 | sigma_r_ = atof(param[++compteur].c_str()); |
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| 83 | emit_x_ = atof(param[++compteur].c_str()); |
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| 84 | emit_y_ = atof(param[++compteur].c_str()); |
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| 85 | E_cin_ = atof(param[++compteur].c_str()); |
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| 86 | sigma_E_ = atof(param[++compteur].c_str()); |
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| 87 | totalCharge_ = atof(param[++compteur].c_str()); |
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| 88 | } |
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[155] | 89 | |
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[418] | 90 | // string elementRfgun::parmelaOutputFlow() const |
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| 91 | // { |
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| 92 | // ostringstream sortie; |
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| 93 | // // on prend les troncatures tmax et rmax à 3 sigmas |
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| 94 | // sortie << "INPUT 10 /np=" << nmacrop_ << " /sigt=" << sigma_t_ << endl; |
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| 95 | // sortie << " /tmax=" << 3.3*sigma_t_ << " /sigr=" << sigma_r_ << endl; |
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| 96 | // sortie << " /rmax=" << 3.0*sigma_r_ << " /W0=" << E_cin_ << " /dw0=" << sigma_E_ << endl; |
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| 97 | // sortie << " /dwt=" << phaseStep_ << " /ran=2" << endl; |
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[155] | 98 | |
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[418] | 99 | // // on doit entrer le nb vrai de part. (avec signe moins) |
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[304] | 100 | |
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| 101 | |
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[418] | 102 | // sortie << "SCHEFF /beami=" << -fabs(totalCharge_)/ELECTRONANOCOULOMB << " /nprog=2 /point=-1.7" << endl; |
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[155] | 103 | |
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[418] | 104 | // return sortie.str(); |
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| 105 | // } |
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[155] | 106 | |
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[418] | 107 | // string elementRfgun::generatorOutputFlow() const { |
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| 108 | // ostringstream sortie; |
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| 109 | // sortie << "Ipart=" << nmacrop_ << endl; |
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[304] | 110 | |
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[418] | 111 | // sortie << "Probe=.True." << endl; |
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| 112 | // sortie << "Noise_reduc=.T" << endl; |
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| 113 | // sortie << "Cathode=.T." << endl; |
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| 114 | // sortie << "Q_total=" << totalCharge_ << endl; |
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| 115 | // sortie << "Ref_zpos=0.0" << endl; |
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| 116 | // sortie << "Ref_clock=0.0" << endl; |
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| 117 | // sortie << "Ref_Ekin=" << E_cin_ << endl; // tjs en MeV |
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| 118 | // sortie << "Dist_z='g'" << endl; |
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| 119 | // sortie << "sig_clock=" << 1.0e-3*sigma_t_ << endl; // passage de ps en ns |
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| 120 | // sortie << "Dist_pz='g', sig_Ekin=" << 1000.*sigma_E_ << ", emit_z=0.0 , cor_Ekin=0.0 " << endl; // passage en keV |
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| 121 | // sortie << "Dist_x='gauss', sig_x=" << 10.*sigma_r_ << endl; // passage en mm |
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| 122 | // sortie << "Dist_px='g', Nemit_x=" << emit_x_ << ", cor_px=0.0" << endl; |
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| 123 | // sortie << "Dist_y='gauss', sig_y=" << 10.*sigma_r_ << endl; // passage en mm |
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| 124 | // sortie << "Dist_py='g', Nemit_y=" << emit_y_ << ", cor_py=0.0" << endl; |
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| 125 | // return sortie.str(); |
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| 126 | // } |
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[304] | 127 | |
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[155] | 128 | string elementRfgun::FileOutputFlow() const |
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[424] | 129 | { |
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| 130 | ostringstream sortie; |
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| 131 | // on prend les troncatures tmax et rmax à 3 sigmas |
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| 132 | // sortie << elementName_.getElementType() << endl; |
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| 133 | sortie << elementName_.getGenericLabel() << endl; |
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| 134 | sortie << specificName_ << endl; |
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| 135 | sortie << nmacrop_ << " " << sigma_t_ << " " << sigma_r_ << endl; |
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| 136 | sortie << emit_x_ << " " << emit_y_ << endl; |
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| 137 | sortie << E_cin_ << " " << sigma_E_ << endl; |
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| 138 | sortie << phaseStep_ << " " << totalCharge_ << endl; |
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| 139 | return sortie.str(); |
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| 140 | } |
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[155] | 141 | |
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[424] | 142 | vector< pair<string, vector<string> > > elementRfgun::parametersToSoftware () const |
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| 143 | { |
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[418] | 144 | vector< pair<string, vector<string> > > sortie; |
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| 145 | sortie.push_back( pair<string, vector<string> >("labelsGenericSpecific", vector<string>() ) ); |
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| 146 | sortie.back().second.push_back(elementName_.getGenericLabel()); |
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| 147 | sortie.back().second.push_back(specificName_); |
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| 148 | sortie.push_back( pair<string, vector<string> >("nbMacroparticles", vector<string>() ) ); |
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| 149 | sortie.back().second.push_back(mixedTools::intToString(nmacrop_)); |
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| 150 | sortie.push_back( pair<string, vector<string> >("sigmasTR", vector<string>() ) ); |
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| 151 | sortie.back().second.push_back(mixedTools::doubleToString(sigma_t_)); |
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| 152 | sortie.back().second.push_back(mixedTools::doubleToString(sigma_r_)); |
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| 153 | sortie.push_back( pair<string, vector<string> >("emittancesXY", vector<string>() ) ); |
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| 154 | sortie.back().second.push_back(mixedTools::doubleToString(emit_x_)); |
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| 155 | sortie.back().second.push_back(mixedTools::doubleToString(emit_y_)); |
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| 156 | sortie.push_back( pair<string, vector<string> >("kineticE", vector<string>() ) ); |
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| 157 | sortie.back().second.push_back(mixedTools::doubleToString(E_cin_)); |
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| 158 | sortie.back().second.push_back(mixedTools::doubleToString(sigma_E_)); |
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| 159 | sortie.push_back( pair<string, vector<string> >("phaseStep", vector<string>() ) ); |
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| 160 | sortie.back().second.push_back(mixedTools::doubleToString(phaseStep_)); |
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| 161 | sortie.push_back( pair<string, vector<string> >("totalCharge", vector<string>() ) ); |
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| 162 | sortie.back().second.push_back(mixedTools::doubleToString(totalCharge_)); |
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| 163 | return sortie; |
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| 164 | } |
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| 165 | |
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[155] | 166 | void elementRfgun::FileInput(ifstream& ifs) |
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| 167 | { |
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[418] | 168 | ifs >> specificName_; |
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[155] | 169 | ifs >> nmacrop_ >> sigma_t_ >> sigma_r_; |
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[304] | 170 | ifs >> emit_x_ >> emit_y_; |
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[155] | 171 | ifs >> E_cin_ >> sigma_E_; |
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[304] | 172 | ifs >> phaseStep_ >> totalCharge_; |
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[155] | 173 | } |
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[287] | 174 | |
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[424] | 175 | string elementRfgun::print() |
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| 176 | { |
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| 177 | string txt = ""; |
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| 178 | txt += specificName_; |
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| 179 | txt += "\ntotal charge : "; |
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| 180 | txt += mixedTools::doubleToString(totalCharge_); |
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| 181 | txt += "\nsigma_t (ps) : "; |
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| 182 | txt += mixedTools::doubleToString(sigma_t_); |
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| 183 | txt += "\nsigma_r (cm) : "; |
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| 184 | txt += mixedTools::doubleToString(sigma_r_); |
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| 185 | txt += "\nemittance x (pi.mm.mrad) : "; |
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| 186 | txt += mixedTools::doubleToString(emit_x_); |
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| 187 | txt += "\nemittance y (pi.mm.mrad) : "; |
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| 188 | txt += mixedTools::doubleToString(emit_y_); |
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| 189 | txt += "\ninitial kinetic energy (MeV) : "; |
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| 190 | txt += mixedTools::doubleToString(E_cin_); |
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| 191 | txt += "\nsigma_Ecin (MeV) : "; |
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| 192 | txt += mixedTools::doubleToString(sigma_E_); |
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| 193 | txt += "\ntrue number of part. in beam : "; |
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| 194 | txt += mixedTools::boolToString(nmacrop_); |
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| 195 | return txt; |
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| 196 | } |
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[287] | 197 | |
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[424] | 198 | void elementRfgun::InputRep(UAPNode* root) |
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| 199 | { |
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| 200 | UAPNode* ele = root->addChild("element"); |
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| 201 | ele->addAttribute("name",specificName_); |
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| 202 | |
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| 203 | UAPNode* node = ele->addChild("comment"); |
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| 204 | node->addAttribute("type","RFgun"); |
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| 205 | node->addAttribute("text","to simulate emission from a photocathode"); |
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| 206 | |
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| 207 | node = ele->addChild("beam"); |
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| 208 | node->addChild("particle")->addAttribute("type","ELECTRON"); |
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| 209 | string txt = ""; |
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| 210 | txt = mixedTools::intToString(nmacrop_); |
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| 211 | node->addChild("n_particles")->addAttribute("design",txt); |
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| 212 | txt = mixedTools::doubleToString(sigma_t_); |
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| 213 | node->addChild("sig_t")->addAttribute("design",txt); |
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| 214 | txt = mixedTools::doubleToString(emit_x_); |
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| 215 | node->addChild("emittance_a")->addAttribute("design",txt); |
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| 216 | txt = mixedTools::doubleToString(emit_y_); |
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| 217 | node->addChild("emittance_b")->addAttribute("design",txt); |
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| 218 | txt = mixedTools::doubleToString(E_cin_); |
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| 219 | txt = mixedTools::doubleToString(E_cin_); |
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| 220 | node->addChild("total_energy")->addAttribute("design",txt); |
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| 221 | txt = mixedTools::doubleToString(sigma_E_); |
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| 222 | node->addChild("sig_e")->addAttribute("design",txt); |
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| 223 | txt = mixedTools::doubleToString(totalCharge_); |
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| 224 | node->addChild("particle_charge")->addAttribute("design",txt); |
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| 225 | |
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| 226 | // gaussian radial profile |
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| 227 | txt = mixedTools::doubleToString(sigma_r_); |
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| 228 | ele->addChild("sigma_r")->addAttribute("value",txt); |
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| 229 | // integration step size (specific to Parmela) |
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| 230 | txt = mixedTools::doubleToString(phaseStep_); |
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| 231 | ele->addChild("phaseStep")->addAttribute("value",txt); |
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[287] | 232 | } |
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[424] | 233 | |
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