10 #ifndef EIGEN_CXX11_TENSOR_TENSOR_FORWARD_DECLARATIONS_H 11 #define EIGEN_CXX11_TENSOR_TENSOR_FORWARD_DECLARATIONS_H 21 template<
typename T>
struct MakePointer {
25 template<
typename PlainObjectType,
int Options_ = Unaligned,
template <
class>
class MakePointer_ = MakePointer>
class TensorMap;
26 template<
typename Scalar_,
int NumIndices_,
int Options_ = 0,
typename IndexType = DenseIndex>
class Tensor;
27 template<
typename Scalar_,
typename Dimensions,
int Options_ = 0,
typename IndexType = DenseIndex>
class TensorFixedSize;
29 template<
typename Derived,
int AccessLevel>
class TensorBase;
31 template<
typename NullaryOp,
typename PlainObjectType>
class TensorCwiseNullaryOp;
32 template<
typename UnaryOp,
typename XprType>
class TensorCwiseUnaryOp;
33 template<
typename BinaryOp,
typename LeftXprType,
typename RightXprType>
class TensorCwiseBinaryOp;
34 template<
typename TernaryOp,
typename Arg1XprType,
typename Arg2XprType,
typename Arg3XprType>
class TensorCwiseTernaryOp;
35 template<
typename IfXprType,
typename ThenXprType,
typename ElseXprType>
class TensorSelectOp;
36 template<
typename Op,
typename Dims,
typename XprType,
template <
class>
class MakePointer_ = MakePointer >
class TensorReductionOp;
37 template<
typename XprType>
class TensorIndexTupleOp;
38 template<
typename ReduceOp,
typename Dims,
typename XprType>
class TensorTupleReducerOp;
40 template<
typename Dimensions,
typename LeftXprType,
typename RightXprType>
class TensorContractionOp;
42 template<
typename Dimensions,
typename InputXprType,
typename KernelXprType>
class TensorConvolutionOp;
43 template<
typename FFT,
typename XprType,
int FFTDataType,
int FFTDirection>
class TensorFFTOp;
44 template<
typename PatchDim,
typename XprType>
class TensorPatchOp;
45 template<DenseIndex Rows, DenseIndex Cols,
typename XprType>
class TensorImagePatchOp;
46 template<DenseIndex Planes, DenseIndex Rows, DenseIndex Cols,
typename XprType>
class TensorVolumePatchOp;
47 template<
typename Broadcast,
typename XprType>
class TensorBroadcastingOp;
48 template<DenseIndex DimId,
typename XprType>
class TensorChippingOp;
49 template<
typename NewDimensions,
typename XprType>
class TensorReshapingOp;
50 template<
typename XprType>
class TensorLayoutSwapOp;
51 template<
typename StartIndices,
typename Sizes,
typename XprType>
class TensorSlicingOp;
52 template<
typename ReverseDimensions,
typename XprType>
class TensorReverseOp;
53 template<
typename PaddingDimensions,
typename XprType>
class TensorPaddingOp;
54 template<
typename Shuffle,
typename XprType>
class TensorShufflingOp;
55 template<
typename Str
ides,
typename XprType>
class TensorStridingOp;
56 template<
typename StartIndices,
typename StopIndices,
typename Str
ides,
typename XprType>
class TensorStridingSlicingOp;
57 template<
typename Str
ides,
typename XprType>
class TensorInflationOp;
58 template<
typename Generator,
typename XprType>
class TensorGeneratorOp;
59 template<
typename LeftXprType,
typename RightXprType>
class TensorAssignOp;
60 template<
typename Op,
typename XprType>
class TensorScanOp;
63 template<
typename CustomBinaryFunc,
typename LhsXprType,
typename RhsXprType>
class TensorCustomBinaryOp;
65 template<
typename XprType,
template <
class>
class MakePointer_ = MakePointer>
class TensorEvalToOp;
66 template<
typename XprType,
template <
class>
class MakePointer_ = MakePointer>
class TensorForcedEvalOp;
68 template<
typename ExpressionType,
typename DeviceType>
class TensorDevice;
72 struct ThreadPoolDevice;
90 template <
typename Device,
typename Expression>
91 struct IsVectorizable {
95 template <
typename Expression>
96 struct IsVectorizable<GpuDevice, Expression> {
101 template <
typename Expression,
typename Device,
102 bool Vectorizable = IsVectorizable<Device, Expression>::value>
109 #endif // EIGEN_CXX11_TENSOR_TENSOR_FORWARD_DECLARATIONS_H Tensor custom class.
Definition: TensorCustomOp.h:52
Tensor custom class.
Definition: TensorCustomOp.h:202
Namespace containing all symbols from the Eigen library.
Definition: AdolcForward:45
A cost model used to limit the number of threads used for evaluating tensor expression.
Definition: TensorEvaluator.h:28
Pseudo expression providing an operator = that will evaluate its argument on the specified computing ...
Definition: TensorDevice.h:27
A tensor expression mapping an existing array of data.
Definition: TensorForwardDeclarations.h:25
Tensor conversion class. This class makes it possible to vectorize type casting operations when the n...
Definition: TensorConversion.h:145
The fixed sized version of the tensor class.
Definition: TensorFixedSize.h:27
The tensor base class.
Definition: TensorBase.h:827
The tensor executor class.
A reference to a tensor expression The expression will be evaluated lazily (as much as possible)...
Definition: TensorForwardDeclarations.h:28
Tensor concatenation class.
Definition: TensorConcatenation.h:58
The tensor class.
Definition: Tensor.h:63