swh:1:snp:e6d42e6731ce66e3c09de07ac49964c03139e990
Tip revision: 78d7695e70694df479099377176af419ae0c1782 authored by Konrad Werys on 09 March 2019, 17:32:43 UTC
first zip the data for the deployment, then clone the private repo
first zip the data for the deployment, then clone the private repo
Tip revision: 78d7695
OxCalculatorT1Molli_test.cpp
/*!
* \file OxCalculatorT1Molli_test.cpp
* \author Konrad Werys
* \date 2018/08/01
*/
#include "gtest/gtest.h"
#include "OxTestData.h"
#include "CmakeConfigForTomato.h"
#include "OxFunctionsT1Basic.h"
#include "OxFitterAmoebaVnl.h"
#include "OxSignCalculatorNoSign.h"
#include "OxSignCalculatorRealImag.h"
#include "OxStartPointCalculatorDefault3Dims.h"
#include "OxCalculatorT1Molli.h"
//TODO: make sure correctSDs are accually correct
#ifdef USE_VNL
TEST(OxCalculatorT1Molli, calculate_doNotCalculateIfMaxIterZero) {
typedef double TYPE;
char filePath [] = "testData/blood.yaml";
Ox::TestData<TYPE> testData(filePath);
int nSamples = testData.getNSamples();
double invTimes[] = {100, 180, 260, 1715, 3337, 4907, 6455};
double signalMag[] = {55, 49, 29, 22, 51, 61, 64};
// init the necessary objects
Ox::FunctionsT1Basic<TYPE> functionsObject;
Ox::FitterAmoebaVnl<TYPE> fitterAmoebaVnl;
Ox::SignCalculatorNoSign<TYPE> signCalculator;
Ox::StartPointCalculatorDefault3Dims<TYPE> startPointCalculator;
Ox::CalculatorT1Molli<TYPE> CalculatorT1Molli;
// configure
fitterAmoebaVnl.setMaxFunctionEvals(0); // I set the maxFunctionEvals to zero
CalculatorT1Molli.setFunctionsT1(&functionsObject);
CalculatorT1Molli.setFitter(&fitterAmoebaVnl);
CalculatorT1Molli.setSignCalculator(&signCalculator);
CalculatorT1Molli.setStartPointCalculator(&startPointCalculator);
// set the data
CalculatorT1Molli.setNSamples(nSamples);
CalculatorT1Molli.setInvTimes(testData.getInvTimesPtr());
CalculatorT1Molli.setSigPha(testData.getSignalPhaPtr());
CalculatorT1Molli.setSigMag(testData.getSignalMagPtr());
CalculatorT1Molli.calculate();
EXPECT_DOUBLE_EQ(CalculatorT1Molli.getResults().A, 0);
EXPECT_DOUBLE_EQ(CalculatorT1Molli.getResults().B, 0);
EXPECT_DOUBLE_EQ(CalculatorT1Molli.getResults().T1star, 0);
}
#endif
#ifdef USE_VNL
TEST(OxCalculatorT1Molli, calculate_throwIfInvTimesNotSorted) {
typedef double TYPE;
char filePath [] = "testData/blood.yaml";
Ox::TestData<TYPE> testData(filePath);
int nSamples = testData.getNSamples();
TYPE *invTimesNotSorted = new TYPE[nSamples];
invTimesNotSorted[0] = testData.getSignalPhaPtr()[1];
invTimesNotSorted[1] = testData.getSignalPhaPtr()[0];
invTimesNotSorted[2] = testData.getSignalPhaPtr()[2];
invTimesNotSorted[3] = testData.getSignalPhaPtr()[3];
invTimesNotSorted[4] = testData.getSignalPhaPtr()[4];
invTimesNotSorted[5] = testData.getSignalPhaPtr()[5];
invTimesNotSorted[6] = testData.getSignalPhaPtr()[6];
// init the necessary objects
Ox::FunctionsT1Basic<TYPE> functionsObject;
Ox::FitterAmoebaVnl<TYPE> fitterAmoebaVnl;
Ox::SignCalculatorNoSign<TYPE> signCalculator;
Ox::StartPointCalculatorDefault3Dims<TYPE> startPointCalculator;
Ox::CalculatorT1Molli<TYPE> CalculatorT1Molli;
// configure
CalculatorT1Molli.setFunctionsT1(&functionsObject);
CalculatorT1Molli.setFitter(&fitterAmoebaVnl);
CalculatorT1Molli.setSignCalculator(&signCalculator);
CalculatorT1Molli.setStartPointCalculator(&startPointCalculator);
// set the data
CalculatorT1Molli.setNSamples(nSamples);
CalculatorT1Molli.setInvTimes(invTimesNotSorted);
CalculatorT1Molli.setSigPha(testData.getSignalMagPtr());
CalculatorT1Molli.setSigMag(testData.getSignalPhaPtr());
EXPECT_THROW(CalculatorT1Molli.calculate(), std::runtime_error);
delete [] invTimesNotSorted;
}
#endif
#ifdef USE_VNL
TEST(OxCalculatorT1Molli, calculate_WithoutSigns) {
typedef double TYPE;
char filePath [] = "testData/blood.yaml";
Ox::TestData<TYPE> testData(filePath);
int nSamples = testData.getNSamples();
// init the necessary objects
Ox::FunctionsT1Basic<TYPE> functionsObject;
Ox::FitterAmoebaVnl<TYPE> fitterAmoebaVnl;
Ox::SignCalculatorNoSign<TYPE> signCalculator;
Ox::StartPointCalculatorDefault3Dims<TYPE> startPointCalculator;
Ox::CalculatorT1Molli<TYPE> calculatorT1Molli;
// configure
calculatorT1Molli.setFunctionsT1(&functionsObject);
calculatorT1Molli.setFitter(&fitterAmoebaVnl);
calculatorT1Molli.setSignCalculator(&signCalculator);
calculatorT1Molli.setStartPointCalculator(&startPointCalculator);
// set the data
calculatorT1Molli.setNSamples(nSamples);
calculatorT1Molli.setInvTimes(testData.getInvTimesPtr());
calculatorT1Molli.setSigPha(testData.getSignalPhaPtr());
calculatorT1Molli.setSigMag(testData.getSignalMagPtr());
calculatorT1Molli.calculate();
EXPECT_NEAR(calculatorT1Molli.getResults().A, testData.getResultsMolli()[0], 1e-2);
EXPECT_NEAR(calculatorT1Molli.getResults().B, testData.getResultsMolli()[1], 1e-2);
EXPECT_NEAR(calculatorT1Molli.getResults().T1star, testData.getResultsMolli()[2], 1e-2);
}
#endif
#ifdef USE_VNL
TEST(OxCalculatorT1Molli, calculate_WithSigns) {
typedef double TYPE;
char filePath [] = "testData/blood.yaml";
Ox::TestData<TYPE> testData(filePath);
int nSamples = testData.getNSamples();
// init the necessary objects
Ox::FunctionsT1Basic<TYPE> functionsObject;
Ox::FitterAmoebaVnl<TYPE> fitterAmoebaVnl;
Ox::SignCalculatorRealImag<TYPE> signCalculator;
Ox::StartPointCalculatorDefault3Dims<TYPE> startPointCalculator;
Ox::CalculatorT1Molli<TYPE> calculatorT1Molli;
// configure
calculatorT1Molli.setFunctionsT1(&functionsObject);
calculatorT1Molli.setFitter(&fitterAmoebaVnl);
calculatorT1Molli.setSignCalculator(&signCalculator);
calculatorT1Molli.setStartPointCalculator(&startPointCalculator);
// set the data
calculatorT1Molli.setNSamples(nSamples);
calculatorT1Molli.setInvTimes(testData.getInvTimesPtr());
calculatorT1Molli.setSigPha(testData.getSignalPhaPtr());
calculatorT1Molli.setSigMag(testData.getSignalMagPtr());
calculatorT1Molli.calculate();
EXPECT_NEAR(calculatorT1Molli.getResults().A, testData.getResultsMolli()[0], 1e-2);
EXPECT_NEAR(calculatorT1Molli.getResults().B, testData.getResultsMolli()[1], 1e-2);
EXPECT_NEAR(calculatorT1Molli.getResults().T1star, testData.getResultsMolli()[2], 1e-2);
}
#endif
#ifdef USE_VNL
TEST(OxCalculatorT1Molli, copyConstructor) {
typedef double TYPE;
char filePath [] = "testData/blood.yaml";
Ox::TestData<TYPE> testData(filePath);
int nSamples = testData.getNSamples();
// init the necessary objects
Ox::FunctionsT1Basic<TYPE> functionsObject;
Ox::FitterAmoebaVnl<TYPE> fitterAmoebaVnl;
Ox::SignCalculatorRealImag<TYPE> signCalculator;
Ox::StartPointCalculatorDefault3Dims<TYPE> startPointCalculator;
Ox::CalculatorT1Molli<TYPE> calculatorT1Molli;
// configure
calculatorT1Molli.setFunctionsT1(&functionsObject);
calculatorT1Molli.setFitter(&fitterAmoebaVnl);
calculatorT1Molli.setSignCalculator(&signCalculator);
calculatorT1Molli.setStartPointCalculator(&startPointCalculator);
// set the data
calculatorT1Molli.setNSamples(nSamples);
calculatorT1Molli.setInvTimes(testData.getInvTimesPtr());
calculatorT1Molli.setSigPha(testData.getSignalPhaPtr());
calculatorT1Molli.setSigMag(testData.getSignalMagPtr());
calculatorT1Molli.setMeanCutOff(123);
Ox::CalculatorT1Molli<TYPE> calculatorT1MolliCopy = calculatorT1Molli;
EXPECT_EQ( calculatorT1Molli.getMeanCutOff(), calculatorT1MolliCopy.getMeanCutOff());
EXPECT_EQ( calculatorT1Molli.getNSamples(), calculatorT1MolliCopy.getNSamples());
EXPECT_EQ( calculatorT1Molli.getNDims(), calculatorT1MolliCopy.getNDims());
// empty object pointers
EXPECT_THROW(calculatorT1MolliCopy.getFunctionsT1(), std::runtime_error);
EXPECT_THROW(calculatorT1MolliCopy.getFitter(), std::runtime_error);
EXPECT_THROW(calculatorT1MolliCopy.getSignCalculator(), std::runtime_error);
EXPECT_THROW(calculatorT1MolliCopy.getStartPointCalculator(), std::runtime_error);
// empty array pointers
EXPECT_THROW(calculatorT1MolliCopy.getInvTimes(), std::runtime_error);
EXPECT_FALSE(calculatorT1MolliCopy.getRepTimes());
EXPECT_FALSE(calculatorT1MolliCopy.getRelAcqTimes());
EXPECT_THROW(calculatorT1MolliCopy.getSigMag(), std::runtime_error);
EXPECT_FALSE(calculatorT1MolliCopy.getSigPha());
// non-empty pointers of internal arrays
EXPECT_TRUE(calculatorT1MolliCopy.getSignal());
EXPECT_TRUE(calculatorT1MolliCopy.getSigns());
EXPECT_TRUE(calculatorT1MolliCopy.getStartPoint());
}
#endif
#ifdef USE_VNL
TEST(OxCalculatorT1Molli, correctSDs) {
typedef double TYPE;
char filePath [] = "testData/blood.yaml";
Ox::TestData<TYPE> testData(filePath);
int nSamples = testData.getNSamples();
// init the necessary objects
Ox::FunctionsT1Basic<TYPE> functionsObject;
Ox::FitterAmoebaVnl<TYPE> fitterAmoebaVnl;
Ox::SignCalculatorRealImag<TYPE> signCalculator;
Ox::StartPointCalculatorDefault3Dims<TYPE> startPointCalculator;
Ox::CalculatorT1Molli<TYPE> calculatorT1Molli;
// configure
calculatorT1Molli.setFunctionsT1(&functionsObject);
calculatorT1Molli.setFitter(&fitterAmoebaVnl);
calculatorT1Molli.setSignCalculator(&signCalculator);
calculatorT1Molli.setStartPointCalculator(&startPointCalculator);
// set the data
calculatorT1Molli.setNSamples(nSamples);
calculatorT1Molli.setInvTimes(testData.getInvTimesPtr());
calculatorT1Molli.setSigPha(testData.getSignalPhaPtr());
calculatorT1Molli.setSigMag(testData.getSignalMagPtr());
calculatorT1Molli.calculate();
EXPECT_NEAR(calculatorT1Molli.getResults().SD_T1, 48.31, 1e-2);
EXPECT_NEAR(calculatorT1Molli.getResults().SD_A, 1.96, 1e-2);
EXPECT_NEAR(calculatorT1Molli.getResults().SD_B, 2.07, 1e-2);
}
#endif
