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| /* | |
| The following tests do not check for the numerical accuracy of the operations. | |
| That is tested in a separate program (complex_accuracy.cpp) which requires mpfr, | |
| and takes a lot of time to run. | |
| */ | |
| template<typename T> | |
| struct TestComplexSizeAndAlignment | |
| { | |
| void operator()() | |
| { | |
| THRUST_STATIC_ASSERT( | |
| sizeof(thrust::complex<T>) == sizeof(T) * 2 | |
| ); | |
| THRUST_STATIC_ASSERT( | |
| THRUST_ALIGNOF(thrust::complex<T>) == THRUST_ALIGNOF(T) * 2 | |
| ); | |
| THRUST_STATIC_ASSERT( | |
| sizeof(thrust::complex<T const>) == sizeof(T) * 2 | |
| ); | |
| THRUST_STATIC_ASSERT( | |
| THRUST_ALIGNOF(thrust::complex<T const>) == THRUST_ALIGNOF(T) * 2 | |
| ); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexSizeAndAlignment, FloatingPointTypes> TestComplexSizeAndAlignmentInstance; | |
| template<typename T> | |
| struct TestComplexConstructors | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data[0],data[1]); | |
| thrust::complex<T> b(a); | |
| a = thrust::complex<T>(data[0],data[1]); | |
| ASSERT_ALMOST_EQUAL(a,b); | |
| a = thrust::complex<T>(data[0]); | |
| ASSERT_EQUAL(data[0], a.real()); | |
| ASSERT_EQUAL(T(0), a.imag()); | |
| a = thrust::complex<T>(); | |
| ASSERT_ALMOST_EQUAL(a,std::complex<T>(0)); | |
| a = thrust::complex<T>(thrust::complex<float>(static_cast<float>(data[0]),static_cast<float>(data[1]))); | |
| ASSERT_ALMOST_EQUAL(a,b); | |
| a = thrust::complex<T>(thrust::complex<double>(static_cast<double>(data[0]),static_cast<double>(data[1]))); | |
| ASSERT_ALMOST_EQUAL(a,b); | |
| a = thrust::complex<T>(std::complex<float>(static_cast<float>(data[0]),static_cast<float>(data[1]))); | |
| ASSERT_ALMOST_EQUAL(a,b); | |
| a = thrust::complex<T>(std::complex<double>(static_cast<double>(data[0]),static_cast<double>(data[1]))); | |
| ASSERT_ALMOST_EQUAL(a,b); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexConstructors, FloatingPointTypes> TestComplexConstructorsInstance; | |
| template<typename T> | |
| struct TestComplexGetters | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data = unittest::random_samples<T>(2); | |
| thrust::complex<T> z(data[0], data[1]); | |
| ASSERT_EQUAL(data[0], z.real()); | |
| ASSERT_EQUAL(data[1], z.imag()); | |
| z.real(data[1]); | |
| z.imag(data[0]); | |
| ASSERT_EQUAL(data[1], z.real()); | |
| ASSERT_EQUAL(data[0], z.imag()); | |
| volatile thrust::complex<T> v(data[0], data[1]); | |
| ASSERT_EQUAL(data[0], v.real()); | |
| ASSERT_EQUAL(data[1], v.imag()); | |
| v.real(data[1]); | |
| v.imag(data[0]); | |
| ASSERT_EQUAL(data[1], v.real()); | |
| ASSERT_EQUAL(data[0], v.imag()); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexGetters, FloatingPointTypes> TestComplexGettersInstance; | |
| template<typename T> | |
| struct TestComplexMemberOperators | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data_a = unittest::random_samples<T>(2); | |
| thrust::host_vector<T> data_b = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data_a[0], data_a[1]); | |
| thrust::complex<T> b(data_b[0], data_b[1]); | |
| std::complex<T> c(a); | |
| std::complex<T> d(b); | |
| a += b; | |
| c += d; | |
| ASSERT_ALMOST_EQUAL(a,c); | |
| a -= b; | |
| c -= d; | |
| ASSERT_ALMOST_EQUAL(a,c); | |
| a *= b; | |
| c *= d; | |
| ASSERT_ALMOST_EQUAL(a,c); | |
| a /= b; | |
| c /= d; | |
| ASSERT_ALMOST_EQUAL(a,c); | |
| // casting operator | |
| c = (std::complex<T>)a; | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexMemberOperators, FloatingPointTypes> TestComplexMemberOperatorsInstance; | |
| template<typename T> | |
| struct TestComplexBasicArithmetic | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data[0], data[1]); | |
| std::complex<T> b(a); | |
| // Test the basic arithmetic functions against std | |
| ASSERT_ALMOST_EQUAL(abs(a),abs(b)); | |
| ASSERT_ALMOST_EQUAL(arg(a),arg(b)); | |
| ASSERT_ALMOST_EQUAL(norm(a),norm(b)); | |
| ASSERT_EQUAL(conj(a),conj(b)); | |
| ASSERT_ALMOST_EQUAL(thrust::polar(data[0],data[1]),std::polar(data[0],data[1])); | |
| // random_samples does not seem to produce infinities so proj(z) == z | |
| ASSERT_EQUAL(proj(a),a); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexBasicArithmetic, FloatingPointTypes> TestComplexBasicArithmeticInstance; | |
| template<typename T> | |
| struct TestComplexBinaryArithmetic | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data_a = unittest::random_samples<T>(2); | |
| thrust::host_vector<T> data_b = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data_a[0], data_a[1]); | |
| thrust::complex<T> b(data_b[0], data_b[1]); | |
| ASSERT_ALMOST_EQUAL(a*b,std::complex<T>(a) * std::complex<T>(b)); | |
| ASSERT_ALMOST_EQUAL(a*data_b[0],std::complex<T>(a) * data_b[0]); | |
| ASSERT_ALMOST_EQUAL(data_a[0]*b,data_b[0] * std::complex<T>(b)); | |
| ASSERT_ALMOST_EQUAL(a / b, std::complex<T>(a) / std::complex<T>(b)); | |
| ASSERT_ALMOST_EQUAL(a / data_b[0], std::complex<T>(a) / data_b[0]); | |
| ASSERT_ALMOST_EQUAL(data_a[0] / b, data_b[0] / std::complex<T>(b)); | |
| ASSERT_EQUAL(a + b, std::complex<T>(a) + std::complex<T>(b)); | |
| ASSERT_EQUAL(a + data_b[0], std::complex<T>(a) + data_b[0]); | |
| ASSERT_EQUAL(data_a[0] + b, data_b[0] + std::complex<T>(b)); | |
| ASSERT_EQUAL(a - b, std::complex<T>(a) - std::complex<T>(b)); | |
| ASSERT_EQUAL(a - data_b[0], std::complex<T>(a) - data_b[0]); | |
| ASSERT_EQUAL(data_a[0] - b, data_b[0] - std::complex<T>(b)); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexBinaryArithmetic, FloatingPointTypes> TestComplexBinaryArithmeticInstance; | |
| template<typename T> | |
| struct TestComplexUnaryArithmetic | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data_a = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data_a[0], data_a[1]); | |
| ASSERT_EQUAL(+a,+std::complex<T>(a)); | |
| ASSERT_EQUAL(-a,-std::complex<T>(a)); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexUnaryArithmetic, FloatingPointTypes> TestComplexUnaryArithmeticInstance; | |
| template<typename T> | |
| struct TestComplexExponentialFunctions | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data_a = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data_a[0], data_a[1]); | |
| std::complex<T> b(a); | |
| ASSERT_ALMOST_EQUAL(exp(a),exp(b)); | |
| ASSERT_ALMOST_EQUAL(log(a),log(b)); | |
| ASSERT_ALMOST_EQUAL(log10(a),log10(b)); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexExponentialFunctions, FloatingPointTypes> TestComplexExponentialFunctionsInstance; | |
| template<typename T> | |
| struct TestComplexPowerFunctions | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data_a = unittest::random_samples<T>(2); | |
| thrust::host_vector<T> data_b = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data_a[0], data_a[1]); | |
| thrust::complex<T> b(data_b[0], data_b[1]); | |
| std::complex<T> c(a); | |
| std::complex<T> d(b); | |
| ASSERT_ALMOST_EQUAL(pow(a,b),pow(c,d)); | |
| ASSERT_ALMOST_EQUAL(pow(a,b.real()),pow(c,d.real())); | |
| ASSERT_ALMOST_EQUAL(pow(a.real(),b),pow(c.real(),d)); | |
| ASSERT_ALMOST_EQUAL(sqrt(a),sqrt(c)); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexPowerFunctions, FloatingPointTypes> TestComplexPowerFunctionsInstance; | |
| template<typename T> | |
| struct TestComplexTrigonometricFunctions | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data_a = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data_a[0], data_a[1]); | |
| std::complex<T> c(a); | |
| ASSERT_ALMOST_EQUAL(cos(a),cos(c)); | |
| ASSERT_ALMOST_EQUAL(sin(a),sin(c)); | |
| ASSERT_ALMOST_EQUAL(tan(a),tan(c)); | |
| ASSERT_ALMOST_EQUAL(cosh(a),cosh(c)); | |
| ASSERT_ALMOST_EQUAL(sinh(a),sinh(c)); | |
| ASSERT_ALMOST_EQUAL(tanh(a),tanh(c)); | |
| ASSERT_ALMOST_EQUAL(acos(a),acos(c)); | |
| ASSERT_ALMOST_EQUAL(asin(a),asin(c)); | |
| ASSERT_ALMOST_EQUAL(atan(a),atan(c)); | |
| ASSERT_ALMOST_EQUAL(acosh(a),acosh(c)); | |
| ASSERT_ALMOST_EQUAL(asinh(a),asinh(c)); | |
| ASSERT_ALMOST_EQUAL(atanh(a),atanh(c)); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexTrigonometricFunctions, FloatingPointTypes> TestComplexTrigonometricFunctionsInstance; | |
| template<typename T> | |
| struct TestComplexStreamOperators | |
| { | |
| void operator()(void) | |
| { | |
| thrust::host_vector<T> data_a = unittest::random_samples<T>(2); | |
| thrust::complex<T> a(data_a[0], data_a[1]); | |
| std::stringstream out; | |
| out << a; | |
| thrust::complex<T> b; | |
| out >> b; | |
| ASSERT_ALMOST_EQUAL(a,b); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexStreamOperators, FloatingPointTypes> TestComplexStreamOperatorsInstance; | |
| template<typename T> | |
| struct TestComplexStdComplexDeviceInterop | |
| { | |
| void operator()() | |
| { | |
| thrust::host_vector<T> data = unittest::random_samples<T>(6); | |
| std::vector<std::complex<T> > vec(10); | |
| vec[0] = std::complex<T>(data[0], data[1]); | |
| vec[1] = std::complex<T>(data[2], data[3]); | |
| vec[2] = std::complex<T>(data[4], data[5]); | |
| thrust::device_vector<thrust::complex<T> > device_vec = vec; | |
| ASSERT_ALMOST_EQUAL(vec[0].real(), thrust::complex<T>(device_vec[0]).real()); | |
| ASSERT_ALMOST_EQUAL(vec[0].imag(), thrust::complex<T>(device_vec[0]).imag()); | |
| ASSERT_ALMOST_EQUAL(vec[1].real(), thrust::complex<T>(device_vec[1]).real()); | |
| ASSERT_ALMOST_EQUAL(vec[1].imag(), thrust::complex<T>(device_vec[1]).imag()); | |
| ASSERT_ALMOST_EQUAL(vec[2].real(), thrust::complex<T>(device_vec[2]).real()); | |
| ASSERT_ALMOST_EQUAL(vec[2].imag(), thrust::complex<T>(device_vec[2]).imag()); | |
| } | |
| }; | |
| SimpleUnitTest<TestComplexStdComplexDeviceInterop, FloatingPointTypes> TestComplexStdComplexDeviceInteropInstance; | |