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llvm / llvm-project / parallel-libs / 4fc5853fd79439b6f0bcb2ed010553cfe9af7c78 / . / streamexecutor / lib / unittests / StreamTest.cpp
blob: 4f42bbe8e72811c660ecdc6da131dc80eaf7f460 [file] [log] [blame]
//===-- StreamTest.cpp - Tests for Stream ---------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
///
/// \file
/// This file contains the unit tests for Stream code.
///
//===----------------------------------------------------------------------===//
#include <cstring>
#include "SimpleHostPlatformDevice.h"
#include "streamexecutor/Device.h"
#include "streamexecutor/Kernel.h"
#include "streamexecutor/KernelSpec.h"
#include "streamexecutor/PlatformInterfaces.h"
#include "streamexecutor/Stream.h"
#include "gtest/gtest.h"
namespace {
namespace se = ::streamexecutor;
const auto &getDeviceValue =
se::test::SimpleHostPlatformDevice::getDeviceValue<int>;
/// Test fixture to hold objects used by tests.
class StreamTest : public ::testing::Test {
public:
StreamTest()
: Device(&PDevice),
Stream(llvm::make_unique<se::PlatformStreamHandle>(&PDevice)),
HostA5{0, 1, 2, 3, 4}, HostB5{5, 6, 7, 8, 9},
HostA7{10, 11, 12, 13, 14, 15, 16}, HostB7{17, 18, 19, 20, 21, 22, 23},
Host5{24, 25, 26, 27, 28}, Host7{29, 30, 31, 32, 33, 34, 35},
DeviceA5(getOrDie(Device.allocateDeviceMemory<int>(5))),
DeviceB5(getOrDie(Device.allocateDeviceMemory<int>(5))),
DeviceA7(getOrDie(Device.allocateDeviceMemory<int>(7))),
DeviceB7(getOrDie(Device.allocateDeviceMemory<int>(7))) {
se::dieIfError(Device.synchronousCopyH2D<int>(HostA5, DeviceA5));
se::dieIfError(Device.synchronousCopyH2D<int>(HostB5, DeviceB5));
se::dieIfError(Device.synchronousCopyH2D<int>(HostA7, DeviceA7));
se::dieIfError(Device.synchronousCopyH2D<int>(HostB7, DeviceB7));
}
protected:
se::test::SimpleHostPlatformDevice PDevice;
se::Device Device;
se::Stream Stream;
// Device memory is matched by host arrays.
int HostA5[5];
int HostB5[5];
int HostA7[7];
int HostB7[7];
// Host memory to be used as actual host memory.
int Host5[5];
int Host7[7];
// Device memory.
se::GlobalDeviceMemory<int> DeviceA5;
se::GlobalDeviceMemory<int> DeviceB5;
se::GlobalDeviceMemory<int> DeviceA7;
se::GlobalDeviceMemory<int> DeviceB7;
};
using llvm::ArrayRef;
using llvm::MutableArrayRef;
// D2H tests
TEST_F(StreamTest, CopyD2HToMutableArrayRefByCount) {
Stream.thenCopyD2H(DeviceA5, MutableArrayRef<int>(Host5), 5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(HostA5[I], Host5[I]);
}
Stream.thenCopyD2H(DeviceB5, MutableArrayRef<int>(Host5), 2);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 2; ++I) {
EXPECT_EQ(HostB5[I], Host5[I]);
}
Stream.thenCopyD2H(DeviceA7, MutableArrayRef<int>(Host5), 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyD2HToMutableArrayRef) {
Stream.thenCopyD2H(DeviceA5, MutableArrayRef<int>(Host5));
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(HostA5[I], Host5[I]);
}
Stream.thenCopyD2H(DeviceA5, MutableArrayRef<int>(Host7));
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyD2HToPointer) {
Stream.thenCopyD2H(DeviceA5, Host5, 5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(HostA5[I], Host5[I]);
}
Stream.thenCopyD2H(DeviceA5, Host7, 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyD2HSliceToMutableArrayRefByCount) {
Stream.thenCopyD2H(DeviceA5.asSlice().drop_front(1),
MutableArrayRef<int>(Host5 + 1, 4), 4);
EXPECT_TRUE(Stream.isOK());
for (int I = 1; I < 5; ++I) {
EXPECT_EQ(HostA5[I], Host5[I]);
}
Stream.thenCopyD2H(DeviceB5.asSlice().drop_back(1),
MutableArrayRef<int>(Host5), 2);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 2; ++I) {
EXPECT_EQ(HostB5[I], Host5[I]);
}
Stream.thenCopyD2H(DeviceA5.asSlice(), MutableArrayRef<int>(Host7), 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyD2HSliceToMutableArrayRef) {
Stream.thenCopyD2H(DeviceA7.asSlice().slice(1, 5),
MutableArrayRef<int>(Host5));
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(HostA7[I + 1], Host5[I]);
}
Stream.thenCopyD2H(DeviceA5.asSlice(), MutableArrayRef<int>(Host7));
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyD2HSliceToPointer) {
Stream.thenCopyD2H(DeviceA5.asSlice().drop_front(1), Host5 + 1, 4);
EXPECT_TRUE(Stream.isOK());
for (int I = 1; I < 5; ++I) {
EXPECT_EQ(HostA5[I], Host5[I]);
}
Stream.thenCopyD2H(DeviceA5.asSlice(), Host7, 7);
EXPECT_FALSE(Stream.isOK());
}
// H2D tests
TEST_F(StreamTest, CopyH2DToArrayRefByCount) {
Stream.thenCopyH2D(ArrayRef<int>(Host5), DeviceA5, 5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), Host5[I]);
}
Stream.thenCopyH2D(ArrayRef<int>(Host5), DeviceB5, 2);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 2; ++I) {
EXPECT_EQ(getDeviceValue(DeviceB5, I), Host5[I]);
}
Stream.thenCopyH2D(ArrayRef<int>(Host7), DeviceA5, 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyH2DToArrayRef) {
Stream.thenCopyH2D(ArrayRef<int>(Host5), DeviceA5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), Host5[I]);
}
Stream.thenCopyH2D(ArrayRef<int>(Host7), DeviceA5);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyH2DToPointer) {
Stream.thenCopyH2D(Host5, DeviceA5, 5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), Host5[I]);
}
Stream.thenCopyH2D(Host7, DeviceA5, 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyH2DSliceToArrayRefByCount) {
Stream.thenCopyH2D(ArrayRef<int>(Host5 + 1, 4),
DeviceA5.asSlice().drop_front(1), 4);
EXPECT_TRUE(Stream.isOK());
for (int I = 1; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), Host5[I]);
}
Stream.thenCopyH2D(ArrayRef<int>(Host5), DeviceB5.asSlice().drop_back(1), 2);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 2; ++I) {
EXPECT_EQ(getDeviceValue(DeviceB5, I), Host5[I]);
}
Stream.thenCopyH2D(ArrayRef<int>(Host5), DeviceA5.asSlice(), 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyH2DSliceToArrayRef) {
Stream.thenCopyH2D(ArrayRef<int>(Host5), DeviceA5.asSlice());
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), Host5[I]);
}
Stream.thenCopyH2D(ArrayRef<int>(Host7), DeviceA5.asSlice());
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyH2DSliceToPointer) {
Stream.thenCopyH2D(Host5, DeviceA5.asSlice(), 5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), Host5[I]);
}
Stream.thenCopyH2D(Host7, DeviceA5.asSlice(), 7);
EXPECT_FALSE(Stream.isOK());
}
// D2D tests
TEST_F(StreamTest, CopyD2DByCount) {
Stream.thenCopyD2D(DeviceA5, DeviceB5, 5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), getDeviceValue(DeviceB5, I));
}
Stream.thenCopyD2D(DeviceA7, DeviceB7, 2);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 2; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA7, I), getDeviceValue(DeviceB7, I));
}
Stream.thenCopyD2D(DeviceA7, DeviceB5, 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyD2D) {
Stream.thenCopyD2D(DeviceA5, DeviceB5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), getDeviceValue(DeviceB5, I));
}
Stream.thenCopyD2D(DeviceA7, DeviceB5);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopySliceD2DByCount) {
Stream.thenCopyD2D(DeviceA5.asSlice().drop_front(1), DeviceB5, 4);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 4; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I + 1), getDeviceValue(DeviceB5, I));
}
Stream.thenCopyD2D(DeviceA7.asSlice().drop_back(1), DeviceB7, 2);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 2; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA7, I), getDeviceValue(DeviceB7, I));
}
Stream.thenCopyD2D(DeviceA5.asSlice(), DeviceB5, 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopySliceD2D) {
Stream.thenCopyD2D(DeviceA7.asSlice().drop_back(2), DeviceB5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA7, I), getDeviceValue(DeviceB5, I));
}
Stream.thenCopyD2D(DeviceA5.asSlice().drop_back(1), DeviceB7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyD2DSliceByCount) {
Stream.thenCopyD2D(DeviceA5, DeviceB7.asSlice().drop_front(2), 5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), getDeviceValue(DeviceB7, I + 2));
}
Stream.thenCopyD2D(DeviceA7, DeviceB7.asSlice().drop_back(3), 2);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 2; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA7, I), getDeviceValue(DeviceB7, I));
}
Stream.thenCopyD2D(DeviceA5, DeviceB7.asSlice(), 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopyD2DSlice) {
Stream.thenCopyD2D(DeviceA5, DeviceB7.asSlice().drop_back(2));
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), getDeviceValue(DeviceB7, I));
}
Stream.thenCopyD2D(DeviceA5, DeviceB7.asSlice());
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopySliceD2DSliceByCount) {
Stream.thenCopyD2D(DeviceA5.asSlice(), DeviceB5.asSlice(), 5);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), getDeviceValue(DeviceB5, I));
}
Stream.thenCopyD2D(DeviceA7.asSlice(), DeviceB7.asSlice(), 2);
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 2; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA7, I), getDeviceValue(DeviceB7, I));
}
Stream.thenCopyD2D(DeviceA7.asSlice(), DeviceB5.asSlice(), 7);
EXPECT_FALSE(Stream.isOK());
}
TEST_F(StreamTest, CopySliceD2DSlice) {
Stream.thenCopyD2D(DeviceA5.asSlice(), DeviceB5.asSlice());
EXPECT_TRUE(Stream.isOK());
for (int I = 0; I < 5; ++I) {
EXPECT_EQ(getDeviceValue(DeviceA5, I), getDeviceValue(DeviceB5, I));
}
Stream.thenCopyD2D(DeviceA5.asSlice(), DeviceB7.asSlice());
EXPECT_FALSE(Stream.isOK());
}
} // namespace