#include "lest.hpp" #include using namespace std; #include "catima/catima.h" #include "catima/material_database.h" bool rcompare(double a, double b,double eps){ if(fabs((a-b)/fabs(b))16); EXPECT(graphite.M()>12); }, CASE("default materials"){ catima::Material m = catima::get_material(6); EXPECT(m.get_element(0).first.A == 12.0107); EXPECT(m.get_element(0).first.Z == 6); EXPECT(m.density() == 2.0); EXPECT(m.M() == 12.0107); m = catima::get_material(catima::material::WATER); EXPECT(m.get_element(0).first.A == 1.00794); EXPECT(m.get_element(0).first.Z == 1); EXPECT(m.get_element(1).first.A == 15.9994); EXPECT(m.get_element(1).first.Z == 8); EXPECT(m.density() == 1.0); EXPECT(m.M() > 16.0); }, CASE("Layers"){ catima::Material water2; water2.add_element(1,1,2); water2.add_element(16,8,1); water2.density(1.0).thickness(2.0); catima::Material graphite; graphite.add_element(12,6,1); graphite.density(1.8).thickness(1.0); catima::Layers detector1; EXPECT(detector1.num() == 0); detector1.add(graphite); EXPECT(detector1.num() == 1); detector1.add(water2); detector1.add(graphite); EXPECT(detector1.num() == 3); // check correct density and thickness EXPECT(detector1[0].density()==1.8); EXPECT(detector1[0].thickness()==1.0); EXPECT(detector1[1].density()==1.0); EXPECT(detector1[1].thickness()==2.0); EXPECT(detector1[0].get_element(0).first.Z == 6); EXPECT(detector1[0].get_element(0).first.A == 12); EXPECT(detector1[1].get_element(0).first.A == 1); EXPECT(detector1[1].get_element(0).first.Z == 1); EXPECT(detector1[2].density() == 1.8); detector1[1].density(1.2); EXPECT(detector1[1].density()==1.2); catima::Layers detector2; detector2 = detector1; EXPECT(detector2.num() == 3); detector2.add(water2); detector2.add(graphite); EXPECT(detector2.num() == 5); catima::Layers focal_material = detector1 + detector2; EXPECT(focal_material.num() == 8); }, CASE("basic projectile tests"){ catima::Projectile p{12,6,6,1000}; EXPECT(p.A==12); EXPECT(p.Z==6); EXPECT(p.Q==6); EXPECT(p.T==1000); catima::Projectile p2(12,6); EXPECT(p.A==12); EXPECT(p2.Z==6); EXPECT(p2.Q==6); EXPECT(p2.T==0); p2(1000); EXPECT(p2.T==1000); p2(1000)(500); EXPECT(p2.T==500); catima::Projectile p3(12,6,5); EXPECT(p==p2); EXPECT( !(p==p3)); }, CASE("basic config test"){ catima::Config c1; catima::Config c2; catima::Config c3{catima::z_eff_type::none}; EXPECT(c1==c2); EXPECT( !(c1==c3)); }, CASE("constructors test"){ catima::Material mat2(12,6,2.5,0.1); catima::Material mat3(12.01,6); catima::Material mat4({{12.01,6,1.0}}); catima::Material mat5({ {12.01, 6, 1}, {16.00, 8, 2} }); EXPECT(mat2.ncomponents()==1); EXPECT(mat3.ncomponents()==1); EXPECT(mat3.get_element(0).first.A==12.01); EXPECT(mat4.ncomponents()==1); EXPECT(mat4.get_element(0).first.A==12.01); EXPECT(mat5.ncomponents()==2); EXPECT(mat5.get_element(0).first.A==12.01); EXPECT(mat5.get_element(0).first.Z==6); EXPECT(mat5.get_element(1).first.A==16.0); EXPECT(mat5.get_element(1).second==2); catima::Material mat6; mat6 = mat5; EXPECT(mat5==mat6); EXPECT(mat5.ncomponents()==mat6.ncomponents()); EXPECT(mat5.get_element(0).first.A==mat6.get_element(0).first.A); EXPECT(mat5.get_element(1).first.A==mat6.get_element(1).first.A); mat5.add_element(12,6,1); EXPECT(mat5.ncomponents()==mat6.ncomponents()+1); }, CASE("int and double stn check"){ catima::Projectile p{1,1,1,1000}; catima::Material mat1({ {12.01, 6, 1}, {16.00, 8, 1} }); catima::Material mat2({ {12.01, 6, 0.5}, {16.00, 8, 0.5} }); mat1.thickness(1.0); mat2.thickness(1.0); auto res1 = catima::calculate(p(1000),mat1); auto res2 = catima::calculate(p(1000),mat2); EXPECT(res1.dEdxi == res2.dEdxi); EXPECT(res1.range == res2.range); EXPECT(res1.sigma_a == res2.sigma_a); EXPECT(res1.sigma_r == res2.sigma_r); } }; int main( int argc, char * argv[] ) { return lest::run( specification, argc, argv ); }