/*! * \file OxFunctionsT1Shmolli_test.cpp * \author Konrad Werys * \date 2018/07/29 */ #include "CmakeConfigForTomato.h" #include "gtest/gtest.h" #include "OxTestData.h" #ifdef USE_PRIVATE_NR2 #include "OxFunctionsT1Shmolli.h" TEST(OxFunctionsT1Shmolli, calcModelValueTest) { typedef double TYPE; TYPE params[3] = {100, 200, 1000}; Ox::FunctionsT1Shmolli functionsObject; EXPECT_DOUBLE_EQ(functionsObject.calcModelValue(params, 0), 100); // because shmolli } TEST(OxFunctionsT1Shmolli, calcLSResidualsTest) { typedef double TYPE; char filePath [] = "testData/blood.yaml"; Ox::TestData testData(filePath); int nSamples = testData.getNSamples(); TYPE params[3] = {0, 0, 0}; Ox::FunctionsT1Shmolli functionsObject; functionsObject.setNSamples(nSamples); functionsObject.setInvTimes(testData.getInvTimesPtr()); functionsObject.setSignal(testData.getSignalMagPtr()); TYPE *residuals = new TYPE[nSamples]; functionsObject.calcLSResiduals(params, residuals); for (int i = 0; i < nSamples; i++){ EXPECT_DOUBLE_EQ(residuals[i], -testData.getSignalMag()[i]); } delete [] residuals; } TEST(OxFunctionsT1Shmolli, calcLSJacobianTest) { typedef double TYPE; char filePath [] = "testData/blood.yaml"; Ox::TestData testData(filePath); int nSamples = testData.getNSamples(); TYPE params[3] = {0, 0, 1200}; Ox::FunctionsT1Shmolli functionsObject; functionsObject.setNSamples(nSamples); functionsObject.setInvTimes(testData.getInvTimesPtr()); functionsObject.setSignal(testData.getSignalMagPtr()); TYPE jacobian[7*3]; functionsObject.calcLSJacobian(params, jacobian); TYPE correct[7*3] = { 1, -0.920044, 0, 1, -0.860708, 0, 1, -0.805198, 0, 1, -0.239508, 0, 1, -0.0619868, 0, 1, -0.0167532, 0, 1, -0.00461166, 0, }; for (int iSample = 0; iSample < nSamples; iSample++) { for (int iDim = 0; iDim < 3; iDim++) { EXPECT_NEAR(jacobian[iSample*3+iDim], correct[iSample*3+iDim], 1e-3); } } } TEST(OxFunctionsT1Shmolli, calcCostValueTest) { typedef double TYPE; char filePath [] = "testData/blood.yaml"; Ox::TestData testData(filePath); int nSamples = testData.getNSamples(); TYPE params[3] = {0, 0, 0}; Ox::FunctionsT1Shmolli functionsObject; functionsObject.setNSamples(nSamples); functionsObject.setInvTimes(testData.getInvTimesPtr()); functionsObject.setSignal(testData.getSignalMagPtr()); EXPECT_DOUBLE_EQ(functionsObject.calcCostValue(params), 17169); } TEST(OxFunctionsT1Shmolli, calcCostDerivativeTest) { typedef double TYPE; char filePath [] = "testData/blood.yaml"; Ox::TestData testData(filePath); int nSamples = testData.getNSamples(); TYPE params[3] = {100, 200, 1200}; Ox::FunctionsT1Shmolli functionsObject; functionsObject.setNSamples(nSamples); functionsObject.setInvTimes(testData.getInvTimesPtr()); functionsObject.setSignal(testData.getSignalMagPtr()); TYPE derivative[] = {0, 0, 0}; functionsObject.calcCostDerivative(params, derivative); EXPECT_NEAR(derivative[0], -425.52433072265057, 1e-3); EXPECT_NEAR(derivative[1], 588.84996553808264, 1e-3); EXPECT_NEAR(derivative[2], 7.36064616633549, 1e-3); } TEST(OxFunctionsT1Shmolli, copyConstructor) { typedef double TYPE; char filePath [] = "testData/blood.yaml"; Ox::TestData testData(filePath); int nSamples = testData.getNSamples(); TYPE signal[7] = {1, 2, 3, 4, 5, 6, 7}; TYPE newSignal[7] = {2, 2, 3, 4, 5, 6, 7}; TYPE newSignal2[7] = {3, 2, 3, 4, 5, 6, 7}; // init the necessary objects Ox::FunctionsT1Shmolli functionsObject; functionsObject.setNSamples(testData.getNSamples()); functionsObject.setInvTimes(testData.getInvTimesPtr()); functionsObject.setSignal(signal); // copy and set signal Ox::FunctionsT1Shmolli functionsObjectCopy = functionsObject; functionsObjectCopy.setSignal(newSignal); // copy and set signal Ox::FunctionsT1Shmolli functionsObjectCopy2(functionsObject); functionsObjectCopy2.setSignal(newSignal2); // copy should preserve nSamples EXPECT_EQ(functionsObjectCopy.getNSamples(), nSamples); EXPECT_EQ(functionsObjectCopy2.getNSamples(), nSamples); // copy should reset invTimes pointer EXPECT_FALSE(functionsObjectCopy.getInvTimes()); EXPECT_FALSE(functionsObjectCopy2.getInvTimes()); // copy should not preserve signal pointer EXPECT_NE(functionsObject.getSignal(), functionsObjectCopy.getSignal()); EXPECT_NE(functionsObject.getSignal(), functionsObjectCopy2.getSignal()); // check if the new signal pointers were asigned EXPECT_EQ(functionsObjectCopy.getSignal(), newSignal); EXPECT_EQ(functionsObjectCopy2.getSignal(), newSignal2); } #endif // USE_PRIVATE_NR2