/* * Copyright 2008-2018 NVIDIA Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #pragma once #include #if defined(_CCCL_IMPLICIT_SYSTEM_HEADER_GCC) # pragma GCC system_header #elif defined(_CCCL_IMPLICIT_SYSTEM_HEADER_CLANG) # pragma clang system_header #elif defined(_CCCL_IMPLICIT_SYSTEM_HEADER_MSVC) # pragma system_header #endif // no system header #include #include #include #include #include #include #include #include #include // for std::runtime_error #include // for use of std::swap in the WAR below THRUST_NAMESPACE_BEGIN namespace detail { class allocator_mismatch_on_swap : public std::runtime_error { public: allocator_mismatch_on_swap() :std::runtime_error("swap called on containers with allocators that propagate on swap, but compare non-equal") { } }; __thrust_exec_check_disable__ template __host__ __device__ contiguous_storage ::contiguous_storage(const Alloc &alloc) :m_allocator(alloc), m_begin(pointer(static_cast(0))), m_size(0) { ; } // end contiguous_storage::contiguous_storage() __thrust_exec_check_disable__ template __host__ __device__ contiguous_storage ::contiguous_storage(size_type n, const Alloc &alloc) :m_allocator(alloc), m_begin(pointer(static_cast(0))), m_size(0) { allocate(n); } // end contiguous_storage::contiguous_storage() template __host__ __device__ contiguous_storage ::contiguous_storage(copy_allocator_t, const contiguous_storage &other) :m_allocator(other.m_allocator), m_begin(pointer(static_cast(0))), m_size(0) { } // end contiguous_storage::contiguous_storage() template __host__ __device__ contiguous_storage ::contiguous_storage(copy_allocator_t, const contiguous_storage &other, size_type n) :m_allocator(other.m_allocator), m_begin(pointer(static_cast(0))), m_size(0) { allocate(n); } // end contiguous_storage::contiguous_storage() __thrust_exec_check_disable__ template __host__ __device__ contiguous_storage ::~contiguous_storage() { deallocate(); } // end contiguous_storage::~contiguous_storage() template __host__ __device__ typename contiguous_storage::size_type contiguous_storage ::size() const { return m_size; } // end contiguous_storage::size() template __host__ __device__ typename contiguous_storage::size_type contiguous_storage ::max_size() const { return alloc_traits::max_size(m_allocator); } // end contiguous_storage::max_size() template __host__ __device__ typename contiguous_storage::iterator contiguous_storage ::begin() { return m_begin; } // end contiguous_storage::begin() template __host__ __device__ typename contiguous_storage::const_iterator contiguous_storage ::begin() const { return m_begin; } // end contiguous_storage::begin() template __host__ __device__ typename contiguous_storage::iterator contiguous_storage ::end() { return m_begin + size(); } // end contiguous_storage::end() template __host__ __device__ typename contiguous_storage::const_iterator contiguous_storage ::end() const { return m_begin + size(); } // end contiguous_storage::end() template __host__ __device__ typename contiguous_storage::pointer contiguous_storage ::data() { return &*m_begin; } // end contiguous_storage::data() template __host__ __device__ typename contiguous_storage::const_pointer contiguous_storage ::data() const { return &*m_begin; } // end contiguous_storage::data() template __host__ __device__ typename contiguous_storage::reference contiguous_storage ::operator[](size_type n) { return m_begin[n]; } // end contiguous_storage::operator[]() template __host__ __device__ typename contiguous_storage::const_reference contiguous_storage ::operator[](size_type n) const { return m_begin[n]; } // end contiguous_storage::operator[]() __thrust_exec_check_disable__ template __host__ __device__ typename contiguous_storage::allocator_type contiguous_storage ::get_allocator() const { return m_allocator; } // end contiguous_storage::get_allocator() template __host__ __device__ void contiguous_storage ::allocate(size_type n) { if(n > 0) { m_begin = iterator(alloc_traits::allocate(m_allocator,n)); m_size = n; } // end if else { m_begin = iterator(pointer(static_cast(0))); m_size = 0; } // end else } // end contiguous_storage::allocate() template __host__ __device__ void contiguous_storage ::deallocate() { if(size() > 0) { alloc_traits::deallocate(m_allocator,m_begin.base(), size()); m_begin = iterator(pointer(static_cast(0))); m_size = 0; } // end if } // end contiguous_storage::deallocate() template __host__ __device__ void contiguous_storage ::swap(contiguous_storage &x) { thrust::swap(m_begin, x.m_begin); thrust::swap(m_size, x.m_size); swap_allocators( integral_constant< bool, allocator_traits::propagate_on_container_swap::value >(), x.m_allocator); thrust::swap(m_allocator, x.m_allocator); } // end contiguous_storage::swap() template __host__ __device__ void contiguous_storage ::default_construct_n(iterator first, size_type n) { default_construct_range(m_allocator, first.base(), n); } // end contiguous_storage::default_construct_n() template __host__ __device__ void contiguous_storage ::uninitialized_fill_n(iterator first, size_type n, const value_type &x) { fill_construct_range(m_allocator, first.base(), n, x); } // end contiguous_storage::uninitialized_fill() template template __host__ __device__ typename contiguous_storage::iterator contiguous_storage ::uninitialized_copy(thrust::execution_policy &from_system, InputIterator first, InputIterator last, iterator result) { return iterator(copy_construct_range(from_system, m_allocator, first, last, result.base())); } // end contiguous_storage::uninitialized_copy() template template __host__ __device__ typename contiguous_storage::iterator contiguous_storage ::uninitialized_copy(InputIterator first, InputIterator last, iterator result) { // XXX assumes InputIterator's associated System is default-constructible typename thrust::iterator_system::type from_system; return iterator(copy_construct_range(from_system, m_allocator, first, last, result.base())); } // end contiguous_storage::uninitialized_copy() template template __host__ __device__ typename contiguous_storage::iterator contiguous_storage ::uninitialized_copy_n(thrust::execution_policy &from_system, InputIterator first, Size n, iterator result) { return iterator(copy_construct_range_n(from_system, m_allocator, first, n, result.base())); } // end contiguous_storage::uninitialized_copy_n() template template __host__ __device__ typename contiguous_storage::iterator contiguous_storage ::uninitialized_copy_n(InputIterator first, Size n, iterator result) { // XXX assumes InputIterator's associated System is default-constructible typename thrust::iterator_system::type from_system; return iterator(copy_construct_range_n(from_system, m_allocator, first, n, result.base())); } // end contiguous_storage::uninitialized_copy_n() template __host__ __device__ void contiguous_storage ::destroy(iterator first, iterator last) { destroy_range(m_allocator, first.base(), last - first); } // end contiguous_storage::destroy() template __host__ __device__ void contiguous_storage ::deallocate_on_allocator_mismatch(const contiguous_storage &other) { integral_constant< bool, allocator_traits::propagate_on_container_copy_assignment::value > c; deallocate_on_allocator_mismatch_dispatch(c, other); } // end contiguous_storage::deallocate_on_allocator_mismatch template __host__ __device__ void contiguous_storage ::destroy_on_allocator_mismatch(const contiguous_storage &other, iterator first, iterator last) { integral_constant< bool, allocator_traits::propagate_on_container_copy_assignment::value > c; destroy_on_allocator_mismatch_dispatch(c, other, first, last); } // end contiguous_storage::destroy_on_allocator_mismatch __thrust_exec_check_disable__ template __host__ __device__ void contiguous_storage ::set_allocator(const Alloc &alloc) { m_allocator = alloc; } // end contiguous_storage::set_allocator() template __host__ __device__ bool contiguous_storage ::is_allocator_not_equal(const Alloc &alloc) const { return is_allocator_not_equal_dispatch( integral_constant< bool, allocator_traits::is_always_equal::value >(), alloc); } // end contiguous_storage::is_allocator_not_equal() template __host__ __device__ bool contiguous_storage ::is_allocator_not_equal(const contiguous_storage &other) const { return is_allocator_not_equal(m_allocator, other.m_allocator); } // end contiguous_storage::is_allocator_not_equal() template __host__ __device__ void contiguous_storage ::propagate_allocator(const contiguous_storage &other) { integral_constant< bool, allocator_traits::propagate_on_container_copy_assignment::value > c; propagate_allocator_dispatch(c, other); } // end contiguous_storage::propagate_allocator() #if THRUST_CPP_DIALECT >= 2011 template __host__ __device__ void contiguous_storage ::propagate_allocator(contiguous_storage &other) { integral_constant< bool, allocator_traits::propagate_on_container_move_assignment::value > c; propagate_allocator_dispatch(c, other); } // end contiguous_storage::propagate_allocator() template __host__ __device__ contiguous_storage &contiguous_storage ::operator=(contiguous_storage &&other) { if (size() > 0) { deallocate(); } propagate_allocator(other); m_begin = std::move(other.m_begin); m_size = std::move(other.m_size); other.m_begin = pointer(static_cast(0)); other.m_size = 0; return *this; } // end contiguous_storage::propagate_allocator() #endif template __host__ __device__ void contiguous_storage ::swap_allocators(true_type, const Alloc &) { } // end contiguous_storage::swap_allocators() template __host__ __device__ void contiguous_storage ::swap_allocators(false_type, Alloc &other) { NV_IF_TARGET(NV_IS_DEVICE, ( // allocators must be equal when swapping containers with allocators that propagate on swap assert(!is_allocator_not_equal(other)); ), ( if (is_allocator_not_equal(other)) { throw allocator_mismatch_on_swap(); } )); thrust::swap(m_allocator, other); } // end contiguous_storage::swap_allocators() template __host__ __device__ bool contiguous_storage ::is_allocator_not_equal_dispatch(true_type /*is_always_equal*/, const Alloc &) const { return false; } // end contiguous_storage::is_allocator_not_equal_dispatch() __thrust_exec_check_disable__ template __host__ __device__ bool contiguous_storage ::is_allocator_not_equal_dispatch(false_type /*!is_always_equal*/, const Alloc& other) const { return m_allocator != other; } // end contiguous_storage::is_allocator_not_equal_dispatch() __thrust_exec_check_disable__ template __host__ __device__ void contiguous_storage ::deallocate_on_allocator_mismatch_dispatch(true_type, const contiguous_storage &other) { if (m_allocator != other.m_allocator) { deallocate(); } } // end contiguous_storage::deallocate_on_allocator_mismatch() template __host__ __device__ void contiguous_storage ::deallocate_on_allocator_mismatch_dispatch(false_type, const contiguous_storage &) { } // end contiguous_storage::deallocate_on_allocator_mismatch() __thrust_exec_check_disable__ template __host__ __device__ void contiguous_storage ::destroy_on_allocator_mismatch_dispatch(true_type, const contiguous_storage &other, iterator first, iterator last) { if (m_allocator != other.m_allocator) { destroy(first, last); } } // end contiguous_storage::destroy_on_allocator_mismatch() template __host__ __device__ void contiguous_storage ::destroy_on_allocator_mismatch_dispatch(false_type, const contiguous_storage &, iterator, iterator) { } // end contiguous_storage::destroy_on_allocator_mismatch() __thrust_exec_check_disable__ template __host__ __device__ void contiguous_storage ::propagate_allocator_dispatch(true_type, const contiguous_storage &other) { m_allocator = other.m_allocator; } // end contiguous_storage::propagate_allocator() template __host__ __device__ void contiguous_storage ::propagate_allocator_dispatch(false_type, const contiguous_storage &) { } // end contiguous_storage::propagate_allocator() #if THRUST_CPP_DIALECT >= 2011 __thrust_exec_check_disable__ template __host__ __device__ void contiguous_storage ::propagate_allocator_dispatch(true_type, contiguous_storage &other) { m_allocator = std::move(other.m_allocator); } // end contiguous_storage::propagate_allocator() template __host__ __device__ void contiguous_storage ::propagate_allocator_dispatch(false_type, contiguous_storage &) { } // end contiguous_storage::propagate_allocator() #endif } // end detail template __host__ __device__ void swap(detail::contiguous_storage &lhs, detail::contiguous_storage &rhs) { lhs.swap(rhs); } // end swap() THRUST_NAMESPACE_END