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author | Cedric Nugteren <web@cedricnugteren.nl> | 2016-10-01 13:45:08 +0200 |
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committer | Cedric Nugteren <web@cedricnugteren.nl> | 2016-10-01 13:45:08 +0200 |
commit | a9d35cf04ceb2ba2185c7520dbff79580abbd785 (patch) | |
tree | d12dabf8c65ee699a78cee8313ccb19377ab2832 /src/utilities.cpp | |
parent | 73d135c2cef9763b47d410b125eb8bb89ece8432 (diff) | |
parent | d59e5c570b0bbdb8348d2f9ee6fc5850e606db27 (diff) |
Merge branch 'development' into gemm_direct
Diffstat (limited to 'src/utilities.cpp')
-rw-r--r-- | src/utilities.cpp | 20 |
1 files changed, 10 insertions, 10 deletions
diff --git a/src/utilities.cpp b/src/utilities.cpp index 77bc72d7..86cc2d13 100644 --- a/src/utilities.cpp +++ b/src/utilities.cpp @@ -270,40 +270,40 @@ unsigned int GetRandomSeed() { // Create a random number generator and populates a vector with samples from a random distribution template <typename T> -void PopulateVector(std::vector<T> &vector) { +void PopulateVector(std::vector<T> &vector, const unsigned int seed) { auto lower_limit = static_cast<T>(kTestDataLowerLimit); auto upper_limit = static_cast<T>(kTestDataUpperLimit); - std::mt19937 mt(GetRandomSeed()); + std::mt19937 mt(seed); std::uniform_real_distribution<T> dist(lower_limit, upper_limit); for (auto &element: vector) { element = dist(mt); } } -template void PopulateVector<float>(std::vector<float>&); -template void PopulateVector<double>(std::vector<double>&); +template void PopulateVector<float>(std::vector<float>&, const unsigned int); +template void PopulateVector<double>(std::vector<double>&, const unsigned int); // Specialized versions of the above for complex data-types template <> -void PopulateVector(std::vector<float2> &vector) { +void PopulateVector(std::vector<float2> &vector, const unsigned int seed) { auto lower_limit = static_cast<float>(kTestDataLowerLimit); auto upper_limit = static_cast<float>(kTestDataUpperLimit); - std::mt19937 mt(GetRandomSeed()); + std::mt19937 mt(seed); std::uniform_real_distribution<float> dist(lower_limit, upper_limit); for (auto &element: vector) { element.real(dist(mt)); element.imag(dist(mt)); } } template <> -void PopulateVector(std::vector<double2> &vector) { +void PopulateVector(std::vector<double2> &vector, const unsigned int seed) { auto lower_limit = static_cast<double>(kTestDataLowerLimit); auto upper_limit = static_cast<double>(kTestDataUpperLimit); - std::mt19937 mt(GetRandomSeed()); + std::mt19937 mt(seed); std::uniform_real_distribution<double> dist(lower_limit, upper_limit); for (auto &element: vector) { element.real(dist(mt)); element.imag(dist(mt)); } } // Specialized versions of the above for half-precision template <> -void PopulateVector(std::vector<half> &vector) { +void PopulateVector(std::vector<half> &vector, const unsigned int seed) { const auto lower_limit = static_cast<float>(kTestDataLowerLimit); const auto upper_limit = static_cast<float>(kTestDataUpperLimit); - std::mt19937 mt(GetRandomSeed()); + std::mt19937 mt(seed); std::uniform_real_distribution<float> dist(lower_limit, upper_limit); for (auto &element: vector) { element = FloatToHalf(dist(mt)); } } |