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c2ce3d927a
- corrects code to support non- USAGE_DEFAULT settings - accuracy, regression, perf test cases - not tested on the 3.x branch
239 lines
6.1 KiB
C++
239 lines
6.1 KiB
C++
// This file is part of OpenCV project.
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// It is subject to the license terms in the LICENSE file found in the top-level directory
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// of this distribution and at http://opencv.org/license.html.
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#include "test_precomp.hpp"
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#include "opencv2/ts/ocl_test.hpp"
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namespace opencv_test {
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namespace ocl {
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static
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testing::internal::ParamGenerator<std::string> getOpenCLTestConfigurations()
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{
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if (!cv::ocl::useOpenCL())
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{
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return testing::ValuesIn(std::vector<std::string>());
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}
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std::vector<std::string> configurations = {
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":GPU:0",
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":GPU:1",
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":CPU:0",
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};
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return testing::ValuesIn(configurations);
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}
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static void executeUMatCall(bool requireOpenCL = true)
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{
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UMat a(100, 100, CV_8UC1, Scalar::all(0));
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UMat b;
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cv::add(a, Scalar::all(1), b);
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Mat b_cpu = b.getMat(ACCESS_READ);
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EXPECT_EQ(0, cv::norm(b_cpu - 1, NORM_INF));
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if (requireOpenCL)
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{
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EXPECT_TRUE(cv::ocl::useOpenCL());
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}
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}
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TEST(OCL_Context, createFromDevice)
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{
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bool useOCL = cv::ocl::useOpenCL();
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OpenCLExecutionContext ctx = OpenCLExecutionContext::getCurrent();
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if (!useOCL)
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{
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ASSERT_TRUE(ctx.empty()); // Other tests should not broke global state
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throw SkipTestException("OpenCL is not available / disabled");
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}
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ASSERT_FALSE(ctx.empty());
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ocl::Device device = ctx.getDevice();
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ASSERT_FALSE(device.empty());
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ocl::Context context = ocl::Context::fromDevice(device);
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ocl::Context context2 = ocl::Context::fromDevice(device);
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EXPECT_TRUE(context.getImpl() == context2.getImpl()) << "Broken cache for OpenCL context (device)";
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}
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TEST(OCL_OpenCLExecutionContextDefault, basic)
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{
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bool useOCL = cv::ocl::useOpenCL();
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OpenCLExecutionContext ctx = OpenCLExecutionContext::getCurrent();
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if (!useOCL)
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{
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ASSERT_TRUE(ctx.empty()); // Other tests should not broke global state
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throw SkipTestException("OpenCL is not available / disabled");
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}
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ASSERT_FALSE(ctx.empty());
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ocl::Context context = ctx.getContext();
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ocl::Context context2 = ocl::Context::getDefault();
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EXPECT_TRUE(context.getImpl() == context2.getImpl());
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ocl::Device device = ctx.getDevice();
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ocl::Device device2 = ocl::Device::getDefault();
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EXPECT_TRUE(device.getImpl() == device2.getImpl());
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ocl::Queue queue = ctx.getQueue();
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ocl::Queue queue2 = ocl::Queue::getDefault();
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EXPECT_TRUE(queue.getImpl() == queue2.getImpl());
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}
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TEST(OCL_OpenCLExecutionContextDefault, createAndBind)
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{
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bool useOCL = cv::ocl::useOpenCL();
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OpenCLExecutionContext ctx = OpenCLExecutionContext::getCurrent();
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if (!useOCL)
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{
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ASSERT_TRUE(ctx.empty()); // Other tests should not broke global state
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throw SkipTestException("OpenCL is not available / disabled");
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}
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ASSERT_FALSE(ctx.empty());
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ocl::Context context = ctx.getContext();
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ocl::Device device = ctx.getDevice();
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OpenCLExecutionContext ctx2 = OpenCLExecutionContext::create(context, device);
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ASSERT_FALSE(ctx2.empty());
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try
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{
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ctx2.bind();
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executeUMatCall();
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ctx.bind();
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executeUMatCall();
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}
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catch (...)
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{
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ctx.bind(); // restore
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throw;
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}
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}
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typedef testing::TestWithParam<std::string> OCL_OpenCLExecutionContext_P;
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TEST_P(OCL_OpenCLExecutionContext_P, multipleBindAndExecute)
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{
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bool useOCL = cv::ocl::useOpenCL();
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OpenCLExecutionContext ctx = OpenCLExecutionContext::getCurrent();
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if (!useOCL)
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{
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ASSERT_TRUE(ctx.empty()); // Other tests should not broke global state
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throw SkipTestException("OpenCL is not available / disabled");
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}
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ASSERT_FALSE(ctx.empty());
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std::string opencl_device = GetParam();
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ocl::Context context = ocl::Context::create(opencl_device);
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if (context.empty())
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{
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throw SkipTestException(std::string("OpenCL device is not available: '") + opencl_device + "'");
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}
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ocl::Device device = context.device(0);
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OpenCLExecutionContext ctx2 = OpenCLExecutionContext::create(context, device);
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ASSERT_FALSE(ctx2.empty());
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try
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{
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std::cout << "ctx2..." << std::endl;
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ctx2.bind();
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executeUMatCall();
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std::cout << "ctx..." << std::endl;
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ctx.bind();
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executeUMatCall();
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}
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catch (...)
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{
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ctx.bind(); // restore
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throw;
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}
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}
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TEST_P(OCL_OpenCLExecutionContext_P, ScopeTest)
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{
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bool useOCL = cv::ocl::useOpenCL();
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OpenCLExecutionContext ctx = OpenCLExecutionContext::getCurrent();
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if (!useOCL)
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{
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ASSERT_TRUE(ctx.empty()); // Other tests should not broke global state
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throw SkipTestException("OpenCL is not available / disabled");
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}
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ASSERT_FALSE(ctx.empty());
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std::string opencl_device = GetParam();
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ocl::Context context = ocl::Context::create(opencl_device);
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if (context.empty())
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{
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throw SkipTestException(std::string("OpenCL device is not available: '") + opencl_device + "'");
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}
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ocl::Device device = context.device(0);
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OpenCLExecutionContext ctx2 = OpenCLExecutionContext::create(context, device);
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ASSERT_FALSE(ctx2.empty());
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try
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{
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OpenCLExecutionContextScope ctx_scope(ctx2);
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executeUMatCall();
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}
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catch (...)
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{
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ctx.bind(); // restore
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throw;
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}
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executeUMatCall();
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}
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INSTANTIATE_TEST_CASE_P(/*nothing*/, OCL_OpenCLExecutionContext_P, getOpenCLTestConfigurations());
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typedef testing::TestWithParam<UMatUsageFlags> UsageFlagsFixture;
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OCL_TEST_P(UsageFlagsFixture, UsageFlagsRetained)
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{
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if (!cv::ocl::useOpenCL())
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{
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throw SkipTestException("OpenCL is not available / disabled");
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}
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const UMatUsageFlags usage = GetParam();
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cv::UMat flip_in(10, 10, CV_32F, usage);
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cv::UMat flip_out(usage);
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cv::flip(flip_in, flip_out, 1);
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cv::ocl::finish();
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ASSERT_EQ(usage, flip_in.usageFlags);
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ASSERT_EQ(usage, flip_out.usageFlags);
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}
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INSTANTIATE_TEST_CASE_P(
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/*nothing*/,
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UsageFlagsFixture,
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testing::Values(USAGE_DEFAULT, USAGE_ALLOCATE_HOST_MEMORY, USAGE_ALLOCATE_DEVICE_MEMORY)
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);
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} } // namespace opencv_test::ocl
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