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synced 2024-12-21 07:19:46 +08:00
Introduce internal's UIntPtr and IntPtr types for pointer to integer conversions.
This fixes "conversion from pointer to same-sized integral type" warnings by ICC. Ideally, we would use the std::[u]intptr_t types all the time, but since they are C99/C++11 only, let's be safe.
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@ -522,7 +522,7 @@ struct dense_assignment_loop<Kernel, SliceVectorizedTraversal, NoUnrolling>
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: int(Kernel::AssignmentTraits::DstAlignment)
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};
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const Scalar *dst_ptr = &kernel.dstEvaluator().coeffRef(0,0);
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if((!bool(dstIsAligned)) && (size_t(dst_ptr) % sizeof(Scalar))>0)
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if((!bool(dstIsAligned)) && (UIntPtr(dst_ptr-nullptr) % sizeof(Scalar))>0)
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{
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// the pointer is not aligend-on scalar, so alignment is not possible
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return dense_assignment_loop<Kernel,DefaultTraversal,NoUnrolling>::run(kernel);
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@ -882,7 +882,7 @@ struct block_evaluator<ArgType, BlockRows, BlockCols, InnerPanel, /* HasDirectAc
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: mapbase_evaluator<XprType, typename XprType::PlainObject>(block)
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{
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// TODO: for the 3.3 release, this should be turned to an internal assertion, but let's keep it as is for the beta lifetime
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eigen_assert(((size_t(block.data()) % EIGEN_PLAIN_ENUM_MAX(1,evaluator<XprType>::Alignment)) == 0) && "data is not aligned");
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eigen_assert(((internal::UIntPtr(block.data()) % EIGEN_PLAIN_ENUM_MAX(1,evaluator<XprType>::Alignment)) == 0) && "data is not aligned");
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}
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};
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@ -67,13 +67,13 @@ struct plain_array
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template<typename PtrType>
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EIGEN_ALWAYS_INLINE PtrType eigen_unaligned_array_assert_workaround_gcc47(PtrType array) { return array; }
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#define EIGEN_MAKE_UNALIGNED_ARRAY_ASSERT(sizemask) \
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eigen_assert((reinterpret_cast<size_t>(eigen_unaligned_array_assert_workaround_gcc47(array)) & (sizemask)) == 0 \
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eigen_assert((internal::UIntPtr(eigen_unaligned_array_assert_workaround_gcc47(array)) & (sizemask)) == 0 \
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&& "this assertion is explained here: " \
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"http://eigen.tuxfamily.org/dox-devel/group__TopicUnalignedArrayAssert.html" \
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" **** READ THIS WEB PAGE !!! ****");
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#else
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#define EIGEN_MAKE_UNALIGNED_ARRAY_ASSERT(sizemask) \
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eigen_assert((reinterpret_cast<size_t>(array) & (sizemask)) == 0 \
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eigen_assert((internal::UIntPtr(array) & (sizemask)) == 0 \
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&& "this assertion is explained here: " \
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"http://eigen.tuxfamily.org/dox-devel/group__TopicUnalignedArrayAssert.html" \
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" **** READ THIS WEB PAGE !!! ****");
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@ -166,7 +166,7 @@ template<typename Derived> class MapBase<Derived, ReadOnlyAccessors>
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void checkSanity(typename internal::enable_if<(internal::traits<T>::Alignment>0),void*>::type = 0) const
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{
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#if EIGEN_MAX_ALIGN_BYTES>0
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eigen_assert(( ((size_t(m_data) % internal::traits<Derived>::Alignment) == 0)
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eigen_assert(( ((internal::UIntPtr(m_data) % internal::traits<Derived>::Alignment) == 0)
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|| (cols() * rows() * innerStride() * sizeof(Scalar)) < internal::traits<Derived>::Alignment ) && "data is not aligned");
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#endif
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}
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@ -309,8 +309,8 @@ class gemm_blocking_space<StorageOrder,_LhsScalar,_RhsScalar,MaxRows, MaxCols, M
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this->m_blockA = m_staticA;
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this->m_blockB = m_staticB;
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#else
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this->m_blockA = reinterpret_cast<LhsScalar*>((std::size_t(m_staticA) + (EIGEN_DEFAULT_ALIGN_BYTES-1)) & ~std::size_t(EIGEN_DEFAULT_ALIGN_BYTES-1));
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this->m_blockB = reinterpret_cast<RhsScalar*>((std::size_t(m_staticB) + (EIGEN_DEFAULT_ALIGN_BYTES-1)) & ~std::size_t(EIGEN_DEFAULT_ALIGN_BYTES-1));
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this->m_blockA = reinterpret_cast<LhsScalar*>((internal::UIntPtr(m_staticA) + (EIGEN_DEFAULT_ALIGN_BYTES-1)) & ~std::size_t(EIGEN_DEFAULT_ALIGN_BYTES-1));
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this->m_blockB = reinterpret_cast<RhsScalar*>((internal::UIntPtr(m_staticB) + (EIGEN_DEFAULT_ALIGN_BYTES-1)) & ~std::size_t(EIGEN_DEFAULT_ALIGN_BYTES-1));
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#endif
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}
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@ -140,7 +140,7 @@ EIGEN_DONT_INLINE void general_matrix_vector_product<Index,LhsScalar,LhsMapper,C
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// find how many columns do we have to skip to be aligned with the result (if possible)
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Index skipColumns = 0;
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// if the data cannot be aligned (TODO add some compile time tests when possible, e.g. for floats)
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if( (lhsAlignmentOffset < 0) || (lhsAlignmentOffset == size) || (size_t(res)%sizeof(ResScalar)) )
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if( (lhsAlignmentOffset < 0) || (lhsAlignmentOffset == size) || (UIntPtr(res)%sizeof(ResScalar)) )
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{
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alignedSize = 0;
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alignedStart = 0;
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@ -135,7 +135,7 @@ class BlasVectorMapper {
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template <typename Packet>
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EIGEN_DEVICE_FUNC bool aligned(Index i) const {
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return (size_t(m_data+i)%sizeof(Packet))==0;
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return (UIntPtr(m_data+i)%sizeof(Packet))==0;
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}
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protected:
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@ -227,7 +227,7 @@ class blas_data_mapper {
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EIGEN_DEVICE_FUNC const Scalar* data() const { return m_data; }
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EIGEN_DEVICE_FUNC Index firstAligned(Index size) const {
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if (size_t(m_data)%sizeof(Scalar)) {
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if (UIntPtr(m_data)%sizeof(Scalar)) {
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return -1;
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}
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return internal::first_default_aligned(m_data, size);
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@ -445,7 +445,7 @@ EIGEN_DEVICE_FUNC inline Index first_aligned(const Scalar* array, Index size)
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// so that all elements of the array have the same alignment.
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return 0;
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}
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else if( (std::size_t(array) & (sizeof(Scalar)-1)) || (Alignment%ScalarSize)!=0)
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else if( (UIntPtr(array) & (sizeof(Scalar)-1)) || (Alignment%ScalarSize)!=0)
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{
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// The array is not aligned to the size of a single scalar, or the requested alignment is not a multiple of the scalar size.
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// Consequently, no element of the array is well aligned.
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@ -453,7 +453,7 @@ EIGEN_DEVICE_FUNC inline Index first_aligned(const Scalar* array, Index size)
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}
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else
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{
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Index first = (AlignmentSize - (Index((std::size_t(array)/sizeof(Scalar))) & AlignmentMask)) & AlignmentMask;
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Index first = (AlignmentSize - (Index((UIntPtr(array)/sizeof(Scalar))) & AlignmentMask)) & AlignmentMask;
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return (first < size) ? first : size;
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}
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}
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@ -487,7 +487,7 @@ template<typename T> EIGEN_DEVICE_FUNC void smart_copy(const T* start, const T*
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template<typename T> struct smart_copy_helper<T,true> {
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EIGEN_DEVICE_FUNC static inline void run(const T* start, const T* end, T* target)
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{
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std::ptrdiff_t size = std::ptrdiff_t(end)-std::ptrdiff_t(start);
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IntPtr size = IntPtr(end)-IntPtr(start);
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if(size==0) return;
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eigen_internal_assert(start!=0 && end!=0 && target!=0);
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memcpy(target, start, size);
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@ -510,7 +510,7 @@ template<typename T> void smart_memmove(const T* start, const T* end, T* target)
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template<typename T> struct smart_memmove_helper<T,true> {
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static inline void run(const T* start, const T* end, T* target)
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{
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std::ptrdiff_t size = std::ptrdiff_t(end)-std::ptrdiff_t(start);
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IntPtr size = IntPtr(end)-IntPtr(start);
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if(size==0) return;
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eigen_internal_assert(start!=0 && end!=0 && target!=0);
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std::memmove(target, start, size);
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@ -623,7 +623,7 @@ template<typename T> void swap(scoped_array<T> &a,scoped_array<T> &b)
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#if EIGEN_DEFAULT_ALIGN_BYTES>0
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// We always manually re-align the result of EIGEN_ALLOCA.
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// If alloca is already aligned, the compiler should be smart enough to optimize away the re-alignment.
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#define EIGEN_ALIGNED_ALLOCA(SIZE) reinterpret_cast<void*>((reinterpret_cast<std::size_t>(EIGEN_ALLOCA(SIZE+EIGEN_DEFAULT_ALIGN_BYTES-1)) + EIGEN_DEFAULT_ALIGN_BYTES-1) & ~(std::size_t(EIGEN_DEFAULT_ALIGN_BYTES-1)))
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#define EIGEN_ALIGNED_ALLOCA(SIZE) reinterpret_cast<void*>((internal::UIntPtr(EIGEN_ALLOCA(SIZE+EIGEN_DEFAULT_ALIGN_BYTES-1)) + EIGEN_DEFAULT_ALIGN_BYTES-1) & ~(std::size_t(EIGEN_DEFAULT_ALIGN_BYTES-1)))
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#else
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#define EIGEN_ALIGNED_ALLOCA(SIZE) EIGEN_ALLOCA(SIZE)
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#endif
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@ -27,6 +27,14 @@ namespace internal {
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* we however don't want to add a dependency to Boost.
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*/
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#if EIGEN_COMP_ICC
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typedef std::intptr_t IntPtr;
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typedef std::uintptr_t UIntPtr;
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#else
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typedef std::ptrdiff_t IntPtr;
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typedef std::size_t UIntPtr;
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#endif
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struct true_type { enum { value = 1 }; };
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struct false_type { enum { value = 0 }; };
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