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#include <thrust/detail/config.h>
#if THRUST_CPP_DIALECT >= 2014
#include <unittest/unittest.h>
#include <unittest/util_async.h>
#include <thrust/limits.h>
#include <thrust/async/copy.h>
#include <thrust/host_vector.h>
#include <thrust/device_vector.h>
#define DEFINE_ASYNC_COPY_CALLABLE(name, ...) \
struct THRUST_PP_CAT2(name, _fn) \
{ \
template <typename ForwardIt, typename Sentinel, typename OutputIt> \
__host__ \
auto operator()( \
ForwardIt&& first, Sentinel&& last, OutputIt&& output \
) const \
THRUST_RETURNS( \
::thrust::async::copy( \
__VA_ARGS__ \
THRUST_PP_COMMA_IF(THRUST_PP_ARITY(__VA_ARGS__)) \
THRUST_FWD(first), THRUST_FWD(last), THRUST_FWD(output) \
) \
) \
}; \
/**/
DEFINE_ASYNC_COPY_CALLABLE(
invoke_async_copy
);
DEFINE_ASYNC_COPY_CALLABLE(
invoke_async_copy_host, thrust::host
);
DEFINE_ASYNC_COPY_CALLABLE(
invoke_async_copy_device, thrust::device
);
DEFINE_ASYNC_COPY_CALLABLE(
invoke_async_copy_host_to_device, thrust::host, thrust::device
);
DEFINE_ASYNC_COPY_CALLABLE(
invoke_async_copy_device_to_host, thrust::device, thrust::host
);
DEFINE_ASYNC_COPY_CALLABLE(
invoke_async_copy_host_to_host, thrust::host, thrust::host
);
DEFINE_ASYNC_COPY_CALLABLE(
invoke_async_copy_device_to_device, thrust::device, thrust::device
);
#undef DEFINE_ASYNC_COPY_CALLABLE
///////////////////////////////////////////////////////////////////////////////
template <typename AsyncCopyCallable>
struct test_async_copy_host_to_device
{
template <typename T>
struct tester
{
__host__
void operator()(std::size_t n)
{
thrust::host_vector<T> h0(unittest::random_integers<T>(n));
thrust::device_vector<T> d0(n);
auto f0 = AsyncCopyCallable{}(
h0.begin(), h0.end(), d0.begin()
);
f0.wait();
ASSERT_EQUAL(h0, d0);
}
};
};
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_host_to_device<invoke_async_copy_fn>::tester
, BuiltinNumericTypes
, test_async_copy_trivially_relocatable_elements_host_to_device
);
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_host_to_device<invoke_async_copy_host_to_device_fn>::tester
, BuiltinNumericTypes
, test_async_copy_trivially_relocatable_elements_host_to_device_policies
);
///////////////////////////////////////////////////////////////////////////////
template <typename AsyncCopyCallable>
struct test_async_copy_device_to_host
{
template <typename T>
struct tester
{
__host__
void operator()(std::size_t n)
{
thrust::host_vector<T> h0(unittest::random_integers<T>(n));
thrust::host_vector<T> h1(n);
thrust::device_vector<T> d0(n);
thrust::copy(h0.begin(), h0.end(), d0.begin());
ASSERT_EQUAL(h0, d0);
auto f0 = AsyncCopyCallable{}(
d0.begin(), d0.end(), h1.begin()
);
f0.wait();
ASSERT_EQUAL(h0, d0);
ASSERT_EQUAL(d0, h1);
}
};
};
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_device_to_host<invoke_async_copy_fn>::tester
, BuiltinNumericTypes
, test_async_copy_trivially_relocatable_elements_device_to_host
);
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_device_to_host<invoke_async_copy_device_to_host_fn>::tester
, BuiltinNumericTypes
, test_async_copy_trivially_relocatable_elements_device_to_host_policies
);
///////////////////////////////////////////////////////////////////////////////
template <typename AsyncCopyCallable>
struct test_async_copy_device_to_device
{
template <typename T>
struct tester
{
__host__
void operator()(std::size_t n)
{
thrust::host_vector<T> h0(unittest::random_integers<T>(n));
thrust::device_vector<T> d0(n);
thrust::device_vector<T> d1(n);
thrust::copy(h0.begin(), h0.end(), d0.begin());
ASSERT_EQUAL(h0, d0);
auto f0 = AsyncCopyCallable{}(
d0.begin(), d0.end(), d1.begin()
);
f0.wait();
ASSERT_EQUAL(h0, d0);
ASSERT_EQUAL(d0, d1);
}
};
};
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_device_to_device<invoke_async_copy_fn>::tester
, NumericTypes
, test_async_copy_device_to_device
);
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_device_to_device<invoke_async_copy_device_fn>::tester
, NumericTypes
, test_async_copy_device_to_device_policy
);
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_device_to_device<invoke_async_copy_device_to_device_fn>::tester
, NumericTypes
, test_async_copy_device_to_device_policies
);
///////////////////////////////////////////////////////////////////////////////
// Non ContiguousIterator input.
template <typename AsyncCopyCallable>
struct test_async_copy_counting_iterator_input_to_device_vector
{
template <typename T>
struct tester
{
__host__
void operator()(std::size_t n)
{
thrust::counting_iterator<T> first(0);
thrust::counting_iterator<T> last(
unittest::truncate_to_max_representable<T>(n)
);
thrust::device_vector<T> d0(n);
thrust::device_vector<T> d1(n);
thrust::copy(first, last, d0.begin());
auto f0 = AsyncCopyCallable{}(
first, last, d1.begin()
);
f0.wait();
ASSERT_EQUAL(d0, d1);
}
};
};
// TODO: Re-add custom_numeric when it supports counting iterators.
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_counting_iterator_input_to_device_vector<
invoke_async_copy_fn
>::tester
, BuiltinNumericTypes
, test_async_copy_counting_iterator_input_trivially_relocatable_elements_device_to_device
);
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_counting_iterator_input_to_device_vector<
invoke_async_copy_device_fn
>::tester
, BuiltinNumericTypes
, test_async_copy_counting_iterator_input_trivially_relocatable_elements_device_to_device_policy
);
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_counting_iterator_input_to_device_vector<
invoke_async_copy_device_to_device_fn
>::tester
, BuiltinNumericTypes
, test_async_copy_counting_iterator_input_trivially_relocatable_elements_device_to_device_policies
);
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_counting_iterator_input_to_device_vector<
invoke_async_copy_host_to_device_fn
>::tester
, BuiltinNumericTypes
, test_async_copy_counting_iterator_input_host_to_device_policies
);
///////////////////////////////////////////////////////////////////////////////
// Non ContiguousIterator input.
template <typename AsyncCopyCallable>
struct test_async_copy_counting_iterator_input_to_host_vector
{
template <typename T>
struct tester
{
__host__
void operator()(std::size_t n)
{
thrust::counting_iterator<T> first(0);
thrust::counting_iterator<T> last(
unittest::truncate_to_max_representable<T>(n)
);
thrust::host_vector<T> d0(n);
thrust::host_vector<T> d1(n);
thrust::copy(first, last, d0.begin());
auto f0 = AsyncCopyCallable{}(
first, last, d1.begin()
);
f0.wait();
ASSERT_EQUAL(d0, d1);
}
};
};
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_counting_iterator_input_to_host_vector<
invoke_async_copy_fn
>::tester
, BuiltinNumericTypes
, test_async_copy_counting_iterator_input_trivially_relocatable_elements_device_to_host
);
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_counting_iterator_input_to_host_vector<
invoke_async_copy_device_to_host_fn
>::tester
, BuiltinNumericTypes
, test_async_copy_counting_iterator_input_trivially_relocatable_elements_device_to_host_policies
);
///////////////////////////////////////////////////////////////////////////////
template <typename T>
struct test_async_copy_roundtrip
{
__host__
void operator()(std::size_t n)
{
thrust::host_vector<T> h0(unittest::random_integers<T>(n));
thrust::device_vector<T> d0(n);
auto e0 = thrust::async::copy(
thrust::host, thrust::device
, h0.begin(), h0.end(), d0.begin()
);
auto e1 = thrust::async::copy(
thrust::device.after(e0), thrust::host
, d0.begin(), d0.end(), h0.begin()
);
TEST_EVENT_WAIT(e1);
ASSERT_EQUAL(h0, d0);
}
};
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES_AND_NAME(
test_async_copy_roundtrip
, BuiltinNumericTypes
, test_async_copy_trivially_relocatable_elements_roundtrip
);
///////////////////////////////////////////////////////////////////////////////
template <typename T>
struct test_async_copy_after
{
__host__
void operator()(std::size_t n)
{
thrust::host_vector<T> h0(unittest::random_integers<T>(n));
thrust::host_vector<T> h1(n);
thrust::device_vector<T> d0(n);
thrust::device_vector<T> d1(n);
thrust::device_vector<T> d2(n);
auto e0 = thrust::async::copy(
h0.begin(), h0.end(), d0.begin()
);
ASSERT_EQUAL(true, e0.valid_stream());
auto const e0_stream = e0.stream().native_handle();
auto e1 = thrust::async::copy(
thrust::device.after(e0), d0.begin(), d0.end(), d1.begin()
);
// Verify that double consumption of a future produces an exception.
ASSERT_THROWS_EQUAL(
auto x = thrust::async::copy(
thrust::device.after(e0), d0.begin(), d0.end(), d1.begin()
);
THRUST_UNUSED_VAR(x)
, thrust::event_error
, thrust::event_error(thrust::event_errc::no_state)
);
ASSERT_EQUAL_QUIET(e0_stream, e1.stream().native_handle());
auto after_policy2 = thrust::device.after(e1);
auto e2 = thrust::async::copy(
thrust::host, after_policy2
, h0.begin(), h0.end(), d2.begin()
);
// Verify that double consumption of a policy produces an exception.
ASSERT_THROWS_EQUAL(
auto x = thrust::async::copy(
thrust::host, after_policy2
, h0.begin(), h0.end(), d2.begin()
);
THRUST_UNUSED_VAR(x)
, thrust::event_error
, thrust::event_error(thrust::event_errc::no_state)
);
ASSERT_EQUAL_QUIET(e0_stream, e2.stream().native_handle());
auto e3 = thrust::async::copy(
thrust::device.after(e2), thrust::host
, d1.begin(), d1.end(), h1.begin()
);
ASSERT_EQUAL_QUIET(e0_stream, e3.stream().native_handle());
TEST_EVENT_WAIT(e3);
ASSERT_EQUAL(h0, h1);
ASSERT_EQUAL(h0, d0);
ASSERT_EQUAL(h0, d1);
ASSERT_EQUAL(h0, d2);
}
};
DECLARE_GENERIC_SIZED_UNITTEST_WITH_TYPES(
test_async_copy_after
, BuiltinNumericTypes
);
///////////////////////////////////////////////////////////////////////////////
// TODO: device_to_device NonContiguousIterator output (discard_iterator).
// TODO: host_to_device non trivially relocatable.
// TODO: device_to_host non trivially relocatable.
// TODO: host_to_device NonContiguousIterator input (counting_iterator).
// TODO: host_to_device NonContiguousIterator output (discard_iterator).
// TODO: device_to_host NonContiguousIterator input (counting_iterator).
// TODO: device_to_host NonContiguousIterator output (discard_iterator).
// TODO: Mixed types, needs loosening of `is_trivially_relocatable_to` logic.
// TODO: H->D copy, then dependent D->H copy (round trip).
// Can't do this today because we can't do cross-system with explicit policies.
#endif