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Peterson, Peter
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#ifndef STATISTICSTEST_H_
#define STATISTICSTEST_H_
#include <cxxtest/TestSuite.h>
#include <vector>
#include <string>
#include "MantidKernel/Statistics.h"
using namespace Mantid::Kernel;
using std::string;
using std::vector;
class StatisticsTest : public CxxTest::TestSuite
{
public:
void testDoubleOdd()
{
vector<double> data;
data.push_back(17.2);
data.push_back(18.1);
data.push_back(16.5);
data.push_back(18.3);
data.push_back(12.6);
Statistics stats = getStatistics(data);
TS_ASSERT_EQUALS(stats.mean, 16.54);
TS_ASSERT_DELTA(stats.standard_deviation, 2.0732, 0.0001);
TS_ASSERT_EQUALS(stats.minimum, 12.6);
TS_ASSERT_EQUALS(stats.maximum, 18.3);
TS_ASSERT_EQUALS(stats.median, 17.2);
}
void testZscores()
{
vector<double> data;
data.push_back(12);
data.push_back(13);
data.push_back(9);
data.push_back(18);
data.push_back(7);
data.push_back(9);
data.push_back(14);
data.push_back(16);
data.push_back(10);
data.push_back(12);
data.push_back(7);
data.push_back(13);
data.push_back(14);
data.push_back(19);
data.push_back(10);
data.push_back(16);
data.push_back(12);
data.push_back(16);
data.push_back(19);
data.push_back(11);
std::vector<double> Zscore = getZscore(data);
TS_ASSERT_DELTA(Zscore[4], 1.6397, 0.0001);
TS_ASSERT_DELTA(Zscore[6], 0.3223, 0.0001);
std::vector<double> ZModscore = getModifiedZscore(data);
TS_ASSERT_DELTA(ZModscore[4], 1.2365, 0.0001);
TS_ASSERT_DELTA(ZModscore[6], 0.3372, 0.0001);
Peterson, Peter
committed
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}
void testDoubleSingle()
{
vector<double> data;
data.push_back(42.);
Statistics stats = getStatistics(data);
TS_ASSERT_EQUALS(stats.mean, 42.);
TS_ASSERT_EQUALS(stats.standard_deviation, 0.);
TS_ASSERT_EQUALS(stats.minimum, 42.);
TS_ASSERT_EQUALS(stats.maximum, 42.);
TS_ASSERT_EQUALS(stats.median, 42.);
}
void testInt32Even()
{
vector<int32_t> data;
data.push_back(1);
data.push_back(2);
data.push_back(3);
data.push_back(4);
data.push_back(5);
data.push_back(6);
Statistics stats = getStatistics(data);
TS_ASSERT_EQUALS(stats.mean, 3.5);
TS_ASSERT_DELTA(stats.standard_deviation, 1.7078, 0.0001);
TS_ASSERT_EQUALS(stats.minimum, 1.);
TS_ASSERT_EQUALS(stats.maximum, 6.);
TS_ASSERT_EQUALS(stats.median, 3.5);
}
bool my_isnan(const double number)
{
return number != number;
}
void testString()
{
vector<string> data;
data.push_back("hi there");
Statistics stats = getStatistics(data);
TS_ASSERT(my_isnan(stats.mean));
TS_ASSERT(my_isnan(stats.standard_deviation));
TS_ASSERT(my_isnan(stats.minimum));
TS_ASSERT(my_isnan(stats.maximum));
TS_ASSERT(my_isnan(stats.median));
}
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/** Test function to calculate Rwp
*/
void testRwp()
{
vector<double> obsY(4);
vector<double> calY(4);
vector<double> obsE(4);
obsY[0] = 1.0;
calY[0] = 1.1;
obsE[0] = 1.0;
obsY[1] = 2.0;
calY[1] = 2.1;
obsE[1] = 1.2;
obsY[2] = 3.0;
calY[2] = 3.5;
obsE[2] = 1.4;
obsY[3] = 1.0;
calY[3] = 1.3;
obsE[3] = 1.0;
double rwp = getRFactor(obsY, calY, obsE);
TS_ASSERT_DELTA(rwp, 0.1582, 0.0001);
}
/** Test throw exception
*/
void testRwpException1()
{
vector<double> obsY(4);
vector<double> calY(4);
vector<double> obsE(3);
obsY[0] = 1.0;
calY[0] = 1.1;
obsE[0] = 1.0;
obsY[1] = 2.0;
calY[1] = 2.1;
obsE[1] = 1.2;
obsY[2] = 3.0;
calY[2] = 3.5;
obsE[2] = 1.4;
obsY[3] = 1.0;
calY[3] = 1.3;
TS_ASSERT_THROWS_ANYTHING(getRFactor(obsY, calY, obsE));
/** Test throw exception on empty array
*/
void testRwpException2()
{
vector<double> obsY;
vector<double> calY;
vector<double> obsE;
TS_ASSERT_THROWS_ANYTHING(getRFactor(obsY, calY, obsE));
}
Peterson, Peter
committed
};
#endif // STATISTICSTEST_H_