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| #include <unittest/unittest.h> | |
| #include <thrust/device_malloc_allocator.h> | |
| #include <vector> | |
| template <class Vector> | |
| void TestVectorManipulation(size_t n) | |
| { | |
| typedef typename Vector::iterator Iterator; | |
| typedef typename Vector::value_type T; | |
| thrust::host_vector<T> src = unittest::random_samples<T>(n); | |
| ASSERT_EQUAL(src.size(), n); | |
| // basic initialization | |
| Vector test0(n); | |
| Vector test1(n, T(3)); | |
| ASSERT_EQUAL(test0.size(), n); | |
| ASSERT_EQUAL(test1.size(), n); | |
| ASSERT_EQUAL((test1 == std::vector<T>(n, T(3))), true); | |
| #if (THRUST_HOST_COMPILER == THRUST_HOST_COMPILER_MSVC) && (_MSC_VER <= 1400) | |
| // XXX MSVC 2005's STL unintentionally uses adl to dispatch advance which | |
| // produces an ambiguity between std::advance & thrust::advance | |
| // don't produce a KNOWN_FAILURE, just ignore the issue | |
| #else | |
| // initializing from other vector | |
| std::vector<T> stl_vector(src.begin(), src.end()); | |
| Vector cpy0 = src; | |
| Vector cpy1(stl_vector); | |
| Vector cpy2(stl_vector.begin(), stl_vector.end()); | |
| ASSERT_EQUAL(cpy0, src); | |
| ASSERT_EQUAL(cpy1, src); | |
| ASSERT_EQUAL(cpy2, src); | |
| #endif | |
| // resizing | |
| Vector vec1(src); | |
| vec1.resize(n + 3); | |
| ASSERT_EQUAL(vec1.size(), n + 3); | |
| vec1.resize(n); | |
| ASSERT_EQUAL(vec1.size(), n); | |
| ASSERT_EQUAL(vec1, src); | |
| vec1.resize(n + 20, T(11)); | |
| Vector tail(vec1.begin() + n, vec1.end()); | |
| ASSERT_EQUAL((tail == std::vector<T>(20, T(11))), true); | |
| // shrinking a vector should not invalidate iterators | |
| Iterator first = vec1.begin(); | |
| vec1.resize(10); | |
| ASSERT_EQUAL_QUIET(first, vec1.begin()); | |
| vec1.resize(0); | |
| ASSERT_EQUAL(vec1.size(), 0lu); | |
| ASSERT_EQUAL(vec1.empty(), true); | |
| vec1.resize(10); | |
| ASSERT_EQUAL(vec1.size(), 10lu); | |
| vec1.clear(); | |
| ASSERT_EQUAL(vec1.size(), 0lu); | |
| vec1.resize(5); | |
| ASSERT_EQUAL(vec1.size(), 5lu); | |
| // push_back | |
| Vector vec2; | |
| for(size_t i = 0; i < 10; ++i) | |
| { | |
| ASSERT_EQUAL(vec2.size(), i); | |
| vec2.push_back(T(i)); | |
| ASSERT_EQUAL(vec2.size(), i + 1); | |
| for(size_t j = 0; j <= i; j++) | |
| ASSERT_EQUAL(vec2[j], T(j)); | |
| ASSERT_EQUAL(vec2.back(), T(i)); | |
| } | |
| // pop_back | |
| for(size_t i = 10; i > 0; --i) | |
| { | |
| ASSERT_EQUAL(vec2.size(), i); | |
| ASSERT_EQUAL(vec2.back(), T(i - 1)); | |
| vec2.pop_back(); | |
| ASSERT_EQUAL(vec2.size(), i - 1); | |
| for(size_t j = 0; j < i; j++) | |
| ASSERT_EQUAL(vec2[j], T(j)); | |
| } | |
| //TODO test swap, erase(pos), erase(begin, end) | |
| } | |
| template <typename T> | |
| void TestVectorManipulationHost(size_t n) | |
| { | |
| TestVectorManipulation< thrust::host_vector<T> >(n); | |
| } | |
| DECLARE_VARIABLE_UNITTEST(TestVectorManipulationHost); | |
| template <typename T> | |
| void TestVectorManipulationDevice(size_t n) | |
| { | |
| TestVectorManipulation< thrust::device_vector<T> >(n); | |
| } | |
| DECLARE_VARIABLE_UNITTEST(TestVectorManipulationDevice); | |