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114 lines
3.0 KiB
C++
114 lines
3.0 KiB
C++
#define DOCTEST_CONFIG_IMPLEMENT_WITH_MAIN
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#define DOCTEST_CONFIG_SUPER_FAST_ASSERTS
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#include "doctest.h"
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#include <math.h>
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#include "testutils.h"
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#include "catima/catima.h"
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//#include "nucdata.h"
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using namespace std;
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TEST_CASE("LS generated is equal to calculated"){
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catima::Projectile p;
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double a,b;
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p.A = 238;
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p.Z = 92;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard(p);
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b = catima::precalculated_lindhard(p);
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CHECK(a==approx(b).epsilon(0.001));
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}
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p.A = 220;
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p.Z = 92;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard(p);
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b = catima::precalculated_lindhard(p);
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CHECK(a==approx(b).epsilon(0.01));
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}
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p.A = 250;
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p.Z = 92;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard(p);
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b = catima::precalculated_lindhard(p);
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CHECK(a==approx(b).epsilon(0.01));
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}
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p.A = 200;
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p.Z = 76;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard(p);
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b = catima::precalculated_lindhard(p);
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CHECK(a==approx(b).epsilon(0.01));
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}
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p.A = 100;
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p.Z = 50;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard(p);
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b = catima::precalculated_lindhard(p);
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CHECK(a==approx(b).epsilon(0.01));
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}
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}
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TEST_CASE("LS X generated is equal to calculated"){
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catima::Projectile p;
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double a,b;
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p.A = 238;
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p.Z = 92;
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for(double e:{90.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard_X(p);
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b = catima::precalculated_lindhard_X(p);
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CHECK(a==approx(b).epsilon(0.001));
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}
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p.A = 220;
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p.Z = 92;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard_X(p);
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b = catima::precalculated_lindhard_X(p);
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CHECK(a==approx(b).epsilon(0.02));
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}
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p.A = 250;
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p.Z = 92;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard_X(p);
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b = catima::precalculated_lindhard_X(p);
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CHECK(a==approx(b).epsilon(0.03));
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}
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p.A = 200;
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p.Z = 76;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard_X(p);
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b = catima::precalculated_lindhard_X(p);
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CHECK(a==approx(b).epsilon(0.03));
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}
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p.A = 100;
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p.Z = 50;
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for(double e:{100.0,1000.0,5000.0,30000.0}){
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p.T = e;
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a = catima::bethek_lindhard_X(p);
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b = catima::precalculated_lindhard_X(p);
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CHECK(a==approx(b).epsilon(0.03));
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}
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}
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