Update the bufSlicingTest

Update the comments and simplify the code.
Invert the logic to avoid spurious unreachable code warnings.
Add a second test for the memset functionality on a slice.

Signed-off-by: Andrea Bocci <andrea.bocci@cern.ch>

test/unit/CMakeLists.txt

@@ -28,8 +28,8 @@ add_subdirectory("math/")
 add_subdirectory("mem/buf/")
 add_subdirectory("mem/copy/")
 add_subdirectory("mem/fence/")
-add_subdirectory("mem/view/")
 add_subdirectory("mem/p2p/")
+add_subdirectory("mem/view/")
 add_subdirectory("meta/")
 add_subdirectory("queue/")
 add_subdirectory("rand/")

test/unit/mem/copy/src/BufSlicing.cpp

@@ -1,4 +1,4 @@
-/* Copyright 2022 Axel Huebl, Benjamin Worpitz, Jakob Krude, Bernhard Manfred Gruber, Jan Stephan
+/* Copyright 2023 Axel Huebl, Benjamin Worpitz, Jakob Krude, Bernhard Manfred Gruber, Jan Stephan, Andrea Bocci
  * SPDX-License-Identifier: MPL-2.0
  */
 
@@ -37,7 +37,6 @@ struct TestContainer
     DevHost const devHost;
     DevQueue devQueue;
 
-
     // Constructor
     TestContainer()
         : devAcc(alpaka::getDevByIdx<PltfAcc>(0u))
@@ -46,42 +45,37 @@ struct TestContainer
     {
     }
 
-
     auto createHostBuffer(Vec extents, bool indexed) -> BufHost
     {
         BufHost bufHost(alpaka::allocBuf<TData, TIdx>(devHost, extents));
         if(indexed)
         {
-            TData* const ptr = alpaka::getPtrNative(bufHost);
-            for(TIdx i(0); i < extents.prod(); ++i)
+            TData* const ptr = bufHost.data();
+            for(TIdx i = 0; i < extents.prod(); ++i)
             {
                 ptr[i] = static_cast<TData>(i);
             }
         }
         return bufHost;
     }
 
-
     auto createDeviceBuffer(Vec extents) -> BufDevice
     {
         BufDevice bufDevice(alpaka::allocBuf<TData, TIdx>(devAcc, extents));
         return bufDevice;
     }
 
-
     auto copyToAcc(BufHost bufHost, BufDevice bufAcc, Vec extents) -> void
     {
         alpaka::memcpy(devQueue, bufAcc, bufHost, extents);
     }
 
-
     auto copyToHost(BufDevice bufAcc, BufHost bufHost, Vec extents) -> void
     {
         alpaka::memcpy(devQueue, bufHost, bufAcc, extents);
     }
 
-
-    auto sliceOnDevice(BufDevice bufferToBeSliced, Vec subViewExtents, Vec offsets) -> BufDevice
+    auto copySliceOnDevice(BufDevice bufferToBeSliced, Vec subViewExtents, Vec offsets) -> BufDevice
     {
         BufDevice slicedBuffer = createDeviceBuffer(subViewExtents);
         // Create a subView with a possible offset.
@@ -91,12 +85,19 @@ struct TestContainer
         return slicedBuffer;
     }
 
+    auto zeroSliceOnDevice(BufDevice bufferToBeSliced, Vec subViewExtents, Vec offsets) -> void
+    {
+        // Create a subView with a possible offset.
+        SubView subView = SubView(bufferToBeSliced, subViewExtents, offsets);
+        // Fill the subView with zeros.
+        alpaka::memset(devQueue, subView, 0u);
+    }
 
     auto compareBuffer(BufHost const& bufferA, BufHost const& bufferB, Vec const& extents) const
     {
-        TData const* const ptrA = alpaka::getPtrNative(bufferA);
-        TData const* const ptrB = alpaka::getPtrNative(bufferB);
-        for(TIdx i(0); i < extents.prod(); ++i)
+        TData const* const ptrA = bufferA.data();
+        TData const* const ptrB = bufferB.data();
+        for(TIdx i = 0; i < extents.prod(); ++i)
         {
             INFO("Dim: " << TDim::value);
             INFO("Idx: " << alpaka::core::demangled<TIdx>);
@@ -111,57 +112,113 @@ using DataTypes = std::tuple<int, float, double>;
 
 using TestAccWithDataTypes = alpaka::meta::CartesianProduct<std::tuple, alpaka::test::TestAccs, DataTypes>;
 
-TEMPLATE_LIST_TEST_CASE("memBufSlicingTest", "[memBuf]", TestAccWithDataTypes)
+TEMPLATE_LIST_TEST_CASE("memBufSlicingMemcpyTest", "[memBuf]", TestAccWithDataTypes)
 {
     using Acc = std::tuple_element_t<0, TestType>;
     using Data = std::tuple_element_t<1, TestType>;
     using Dim = alpaka::Dim<Acc>;
-    // fourth-dimension is not supposed to be tested currently
-    if(Dim::value == 4)
+    using Idx = alpaka::Idx<Acc>;
+
+    // Test only buffer slices with up to three dimensions.
+    if constexpr(Dim::value < 4)
     {
-        return;
+        TestContainer<Dim, Idx, Acc, Data> slicingTest;
+
+        auto const extents
+            = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForExtentBuf>();
+        auto const extentsSubView
+            = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForExtentSubView>();
+        auto const offsets
+            = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForOffset>();
+
+        // This is the initial buffer.
+        auto const indexedBuffer = slicingTest.createHostBuffer(extents, true);
+
+        // This buffer will hold the copy of the initial buffer on the device.
+        auto deviceBuffer = slicingTest.createDeviceBuffer(extents);
+
+        // This buffer will hold the sliced-buffer when it is copied back to the host.
+        auto resultBuffer = slicingTest.createHostBuffer(extentsSubView, false);
+
+        // Copy the initial buffer to the device.
+        slicingTest.copyToAcc(indexedBuffer, deviceBuffer, extents);
+
+        // Make a copy of a slice of the buffer on the device.
+        auto slicedBuffer = slicingTest.copySliceOnDevice(deviceBuffer, extentsSubView, offsets);
+
+        // Copy the slice back to the host.
+        slicingTest.copyToHost(slicedBuffer, resultBuffer, extentsSubView);
+
+        // Compute the expected content of the slice.
+        using Dim1 = alpaka::DimInt<1u>;
+        auto correctResults = slicingTest.createHostBuffer(extentsSubView, false);
+        Data* const ptr = correctResults.data();
+        for(Idx i = 0; i < extentsSubView.prod(); ++i)
+        {
+            auto mappedToND = alpaka::mapIdx<Dim::value, Dim1::value>(alpaka::Vec<Dim1, Idx>(i), extentsSubView);
+            auto addedOffset = mappedToND + offsets;
+            auto mappedTo1D = alpaka::mapIdx<Dim1::value>(
+                addedOffset,
+                extents)[0]; // take the only element in the vector
+            ptr[i] = static_cast<Data>(mappedTo1D);
+        }
+
+        // Compare the resultBuffer with the results computed manually.
+        slicingTest.compareBuffer(resultBuffer, correctResults, extentsSubView);
     }
+}
+
+TEMPLATE_LIST_TEST_CASE("memBufSlicingMemsetTest", "[memBuf]", TestAccWithDataTypes)
+{
+    using Acc = std::tuple_element_t<0, TestType>;
+    using Data = std::tuple_element_t<1, TestType>;
+    using Dim = alpaka::Dim<Acc>;
     using Idx = alpaka::Idx<Acc>;
-    TestContainer<Dim, Idx, Acc, Data> slicingTest;
 
-    auto const extents
-        = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForExtentBuf>();
+    // Test only buffer slices with up to three dimensions.
+    if constexpr(Dim::value < 4)
+    {
+        TestContainer<Dim, Idx, Acc, Data> slicingTest;
 
-    auto const extentsSubView
-        = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForExtentSubView>();
-    auto const offsets
-        = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForOffset>();
+        auto const extents
+            = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForExtentBuf>();
+        auto const extentsSubView
+            = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForExtentSubView>();
+        auto const offsets
+            = alpaka::createVecFromIndexedFn<Dim, alpaka::test::CreateVecWithIdx<Idx>::template ForOffset>();
 
-    // This is the initial buffer.
-    auto const indexedBuffer = slicingTest.createHostBuffer(extents, true);
-    // This buffer will hold the sliced-buffer when it was copied to the host.
-    auto resultBuffer = slicingTest.createHostBuffer(extentsSubView, false);
+        // This is the initial buffer.
+        auto const indexedBuffer = slicingTest.createHostBuffer(extents, true);
 
-    // Copy of the indexBuffer on the deviceSide.
-    auto deviceBuffer = slicingTest.createDeviceBuffer(extents);
+        // This buffer will hold the copy of the initial buffer on the device.
+        auto deviceBuffer = slicingTest.createDeviceBuffer(extents);
 
-    // Start: Main-Test
-    slicingTest.copyToAcc(indexedBuffer, deviceBuffer, extents);
+        // This buffer will hold a copy of the initial buffer, after a slice has been set to zeroes.
+        auto resultBuffer = slicingTest.createHostBuffer(extents, false);
 
-    auto slicedBuffer = slicingTest.sliceOnDevice(deviceBuffer, extentsSubView, offsets);
+        // Copy the initial buffer to the device.
+        slicingTest.copyToAcc(indexedBuffer, deviceBuffer, extents);
 
-    slicingTest.copyToHost(slicedBuffer, resultBuffer, extentsSubView);
+        // Fill a slice of the buffer with zeroes.
+        slicingTest.zeroSliceOnDevice(deviceBuffer, extentsSubView, offsets);
 
-    auto correctResults = slicingTest.createHostBuffer(extentsSubView, false);
-    Data* ptrNative = alpaka::getPtrNative(correctResults);
-    using Dim1 = alpaka::DimInt<1u>;
+        // Copy the buffer back to the host
+        slicingTest.copyToHost(deviceBuffer, resultBuffer, extents);
 
-    for(Idx i(0); i < extentsSubView.prod(); ++i)
-    {
-        auto mappedToND = alpaka::mapIdx<Dim::value, Dim1::value>(alpaka::Vec<Dim1, Idx>(i), extentsSubView);
-        auto addedOffset = mappedToND + offsets;
-        auto mappedTo1D = alpaka::mapIdx<Dim1::value>(addedOffset,
-                                                      extents)[0]; // take the only element in the vector
-        ptrNative[i] = static_cast<Data>(mappedTo1D);
-    }
+        // Compute the expected content of the buffer, with a slice set to zeroes.
+        using Dim1 = alpaka::DimInt<1u>;
+        auto correctResults = slicingTest.createHostBuffer(extents, true);
+        Data* const ptr = correctResults.data();
+        for(Idx i = 0; i < extents.prod(); ++i)
+        {
+            auto mappedToND = alpaka::mapIdx<Dim::value, Dim1::value>(alpaka::Vec<Dim1, Idx>(i), extents);
+            if((mappedToND >= offsets && mappedToND < offsets + extentsSubView).all())
+                ptr[i] = static_cast<Data>(0u);
+        }
 
-    // resultBuffer will be compared with the manually computed results.
-    slicingTest.compareBuffer(resultBuffer, correctResults, extentsSubView);
+        // Compare the resultBuffer with the results computed manually.
+        slicingTest.compareBuffer(resultBuffer, correctResults, extentsSubView);
+    }
 }
 
 #if BOOST_COMP_MSVC || defined(BOOST_COMP_MSVC_EMULATED)