mirror of
https://github.com/gwm17/catima.git
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217 lines
6.5 KiB
C++
217 lines
6.5 KiB
C++
/*
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* Author: Andrej Prochazka
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* Copyright(C) 2017
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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* You should have received a copy of the GNU Affero General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef STRUCTURES_H
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#define STRUCTURES_H
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#include <vector>
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#include <array>
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#include <initializer_list>
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namespace catima{
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/**
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* Projectile class
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* Example usage:
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* \code{.cpp}
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* Projectile p(12,6);
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* p.T = 1000; // setting energy to 1000 MeV/u
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* p(1000); // setting energy to 1000 MeV/u
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* \endcode
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*/
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struct Projectile{
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double A=0;
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double Z=0;
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double Q=0;
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double T=0;
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Projectile& operator()(double e){T=e;return *this;}
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Projectile(){}
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Projectile(double a, double z, double q=0, double t=0):A(a),Z(z),Q(q),T(t){if(q==0)Q=Z;}
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};
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bool operator==(const Projectile &a, const Projectile&b);
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/**
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* Target class is used to store constituents of the Material class
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* its just to hold A,Z data for individual atoms.
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*/
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struct Target{
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double A=0;
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int Z=0;
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double stn=1.0;
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};
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/**
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* Material
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* class to store Material information
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* This class defines the material with which projectile will interact.
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* The class store nuclei constituents, density, thickness etc.
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*/
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class Material{
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private:
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double rho=0;
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double th=0;
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double molar_mass=0;
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std::vector<Target>atoms;
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public:
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Material(){};
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/**
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* constructor to add 1 element into the Material, stn number of the element is set to 1.0
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* @param _a - mass number of the atom, is 0 the atomic weight of element _z is taken
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* @param _z - proton number of the atom
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* @param _rho - density of the material in g/cm3, default 0.0
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* @param _th - thickness of the material in g/cm2, default 0.0
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*/
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Material(double _a, int _z, double _rho=0.0, double _th=0.0);
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/**
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* constructor to add 1 or multiple element into the Material
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* \code{.cpp}
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* Maetrial water({
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{1,1,2},
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{16,8,1},
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});
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* \endcode
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*/
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Material(std::initializer_list<std::array<double,3>>list,double _density=0.0);
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//Material(const std::array<double,2> &list);
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/**
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* calculates internal variables if needed
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*/
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void calculate();
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/**
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* add atom with mass number _a and proton number _z to the Material
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* @param _a - mass number of the atom, is 0 the atomic weight of element _z is taken
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* @param _z - proton number of the atom
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* @param _stn - stoichiomatric number
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*/
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void add_element(double _a, int _z, double _stn);
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/**
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* returns i-th element of the Material as a std::pair of Target and corresponding stoichiometric number
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* @param i - index of element to return
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* @return Target class
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*/
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Target get_element(int i) const {return atoms[i];};
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/**
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* return weight fraction of i-th element
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* @return weight fraction
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*/
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double weight_fraction(int i) const {return (atoms[i].stn<1.0)?atoms[i].stn:atoms[i].stn*atoms[i].A/M();};
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/**
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* @return number of components in Material
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*/
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int ncomponents() const {return atoms.size();}
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/**
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* @return returns Molar Mass of the Material
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*/
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double M() const {return molar_mass;}
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/**
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* @return returns density in g/cm^3
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*/
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double density() const {return rho;};
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/**
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* sets density in g/cm^3
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*/
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Material& density(double val){rho = val;return *this;};
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/**
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* @return returns thickness in g/cm^2
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*/
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double thickness() const {return th;};
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/**
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* sets thickness in g/cm^2
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*/
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Material& thickness(double val){th = val;return *this;};
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friend bool operator==(const Material &a, const Material&b);
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};
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bool operator==(const Material &a, const Material&b);
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/**
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* structure to store results for calculation per Material
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*/
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struct Result{
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double Ein=0.0;
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double Eout=0.0;
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double Eloss = 0.0;
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double range=0.0;
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double dEdxi=0.0;
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double dEdxo=0.0;
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double sigma_E=0.0;
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double sigma_a=0.0;
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double sigma_r=0.0;
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double tof=0.0;
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};
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/**
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* structure to store results for calculation for multiple layers of materials, ie in catima::Layers
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*/
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struct MultiResult{
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std::vector<Result> results;
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Result total_result;
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};
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/**
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* Layers
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* class to store multiple material layers
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*/
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class Layers{
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private:
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std::vector<Material> materials;
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public:
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Layers(){};
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Layers& operator=(const Layers& other);
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/**
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* @return reference to the std::vector of stored Materials
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*/
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const std::vector<Material>& get_materials()const{return materials;}
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/**
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* add Material m to the Layers
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* @param m Material
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*/
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void add(Material m);
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/**
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* @return number of stored Materials
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*/
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int num()const{return materials.size();};
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Material& operator[](int i){return materials[i];}
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friend Layers operator+(const Layers &a, const Layers&b);
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friend Layers operator+(const Layers &a, const Material&b);
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};
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}
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#endif
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