Visible to Intel only — GUID: GUID-D64F0E2E-00AC-4FBC-B796-F874C7568584
Visible to Intel only — GUID: GUID-D64F0E2E-00AC-4FBC-B796-F874C7568584
struct dnnl::memory::desc
Overview
A memory descriptor. More…
#include <dnnl.hpp> struct desc: public dnnl::handle { // construction desc(); desc( const dims& adims, data_type adata_type, format_tag aformat_tag, bool allow_empty = false ); desc( const dims& adims, data_type adata_type, const dims& strides, bool allow_empty = false ); desc(dnnl_memory_desc_t md); // methods desc submemory_desc( const dims& adims, const dims& offsets, bool allow_empty = false ) const; desc reshape(const dims& adims, bool allow_empty = false) const; desc permute_axes(const std::vector<int>& permutation, bool allow_empty = false) const; int get_ndims() const; memory::dims get_padded_dims() const; memory::dims get_padded_offsets() const; memory::dim get_submemory_offset() const; memory::dims get_strides() const; int get_inner_nblks() const; memory::dims get_inner_blks() const; memory::dims get_inner_idxs() const; memory::data_type get_data_type() const; memory::format_kind get_format_kind() const; memory::dims get_dims() const; size_t get_size() const; bool is_zero() const; bool operator == (const desc& other) const; bool operator != (const desc& other) const; };
Inherited Members
public: // methods handle<T, traits>& operator = (const handle<T, traits>&); handle<T, traits>& operator = (handle<T, traits>&&); void reset(T t, bool weak = false); T get(bool allow_empty = false) const; operator T () const; operator bool () const; bool operator == (const handle<T, traits>& other) const; bool operator != (const handle& other) const;
Detailed Documentation
A memory descriptor.
Construction
desc()
Constructs a zero (empty) memory descriptor.
Such a memory descriptor can be used to indicate absence of an argument.
desc( const dims& adims, data_type adata_type, format_tag aformat_tag, bool allow_empty = false )
Constructs a memory descriptor.
Parameters:
adims |
Tensor dimensions. |
adata_type |
Data precision/type. |
aformat_tag |
Memory format tag. |
allow_empty |
A flag signifying whether construction is allowed to fail without throwing an exception. In this case a zero memory descriptor will be constructed. This flag is optional and defaults to false. |
desc( const dims& adims, data_type adata_type, const dims& strides, bool allow_empty = false )
Constructs a memory descriptor by strides.
Parameters:
adims |
Tensor dimensions. |
adata_type |
Data precision/type. |
strides |
Strides for each dimension. |
allow_empty |
A flag signifying whether construction is allowed to fail without throwing an exception. In this case a zero memory descriptor will be constructed. This flag is optional and defaults to false. |
desc(dnnl_memory_desc_t md)
Construct a memory descriptor from a C API dnnl_memory_desc_t handle.
The resulting handle is not weak and the C handle will be destroyed during the destruction of the C++ object.
Parameters:
md |
The C API memory descriptor. |
Methods
desc submemory_desc( const dims& adims, const dims& offsets, bool allow_empty = false ) const
Constructs a memory descriptor for a region inside an area described by this memory descriptor.
Parameters:
adims |
Sizes of the region. |
offsets |
Offsets to the region from the encompassing memory object in each dimension. |
allow_empty |
A flag signifying whether construction is allowed to fail without throwing an exception. In this case a zero memory descriptor will be returned. This flag is optional and defaults to false. |
Returns:
A memory descriptor for the region.
desc reshape(const dims& adims, bool allow_empty = false) const
Constructs a memory descriptor by reshaping an existing one.
The new memory descriptor inherits the data type. This operation is valid only for memory descriptors that have format_kind set to dnnl::memory::format_kind::blocked or dnnl::memory::format_kind::any.
The operation ensures that the transformation of the physical memory format corresponds to the transformation of the logical dimensions. If such transformation is impossible, the function either throws an exception (default) or returns a zero memory descriptor depending on the allow_empty flag.
The reshape operation can be described as a combination of the following basic operations:
Add a dimension of size 1. This is always possible.
Remove a dimension of size 1. This is possible only if the dimension has no padding (i.e. padded_dims[dim] == dims[dim] && dims[dim] == 1).
Split a dimension into multiple ones. This is possible only if the product of all tensor dimensions stays constant and the dimension being split does not have padding (i.e. padded_dims[dim] = dims[dim]).
Join multiple consecutive dimensions into a single one. As in the cases above, this requires that the dimensions do not have padding and that the memory format is such that in physical memory these dimensions are dense and have the same order as their logical counterparts. This also assumes that these dimensions are not blocked.
Here, ‘dense’ means: stride for dim[i] == (stride for dim[i + 1]) * dim[i + 1];
And ‘same order’ means: i < j if and only if stride for dim[j] <= stride for dim[i].
Parameters:
adims |
New dimensions. The product of dimensions must remain constant. |
allow_empty |
A flag signifying whether construction is allowed to fail without throwing an exception. In this case a zero memory descriptor will be returned. This flag is optional and defaults to false. |
Returns:
A new memory descriptor with new dimensions.
desc permute_axes(const std::vector<int>& permutation, bool allow_empty = false) const
Constructs a memory descriptor by permuting axes in an existing one.
The physical memory layout representation is adjusted accordingly to maintain the consistency between the logical and physical parts of the memory descriptor. The new memory descriptor inherits the data type.
The new memory descriptor inherits the data type. This operation is valid only for memory descriptors that have format_kind set to dnnl::memory::format_kind::blocked or dnnl::memory::format_kind::any.
The logical axes will be permuted in the following manner:
for (i = 0; i < get_ndims(); i++) new_desc.dims()[permutation[i]] = dims()[i];
Example:
std::vector<int> permutation = {1, 0}; // swap the first and // the second axes dnnl::memory::desc in_md( {2, 3}, data_type, memory::format_tag::ab); dnnl::memory::desc expect_out_md( {3, 2}, data_type, memory::format_tag::ba); assert(in_md.permute_axes(permutation) == expect_out_md);
Parameters:
permutation |
Axes permutation. |
allow_empty |
A flag signifying whether construction is allowed to fail without throwing an exception. In this case a zero memory descriptor will be returned. This flag is optional and defaults to false. |
Returns:
A new memory descriptor with new dimensions.
int get_ndims() const
Returns a number of dimensions of the memory descriptor.
Returns:
A number of dimensions.
memory::dims get_padded_dims() const
Returns padded dimensions of the memory descriptor.
Returns:
A copy of the padded dimensions vector.
memory::dims get_padded_offsets() const
Returns padded offsets of the memory descriptor.
Returns:
A copy of the padded offsets vector.
memory::dim get_submemory_offset() const
Returns a submemory offset of the memory descriptor.
Returns:
A submemory offset.
memory::dims get_strides() const
Returns strides of the memory descriptor.
Returns:
A copy of the strides vector.
An empty dnnl::memory::dims if the memory descriptor does not have strides.
int get_inner_nblks() const
Returns a number of inner blocks of the memory descriptor.
Returns:
A number of inner blocks.
memory::dims get_inner_blks() const
Returns inner blocks of the memory descriptor.
Returns:
A copy of the inner blocks vector.
An empty dnnl::memory::dims if the memory descriptor does not have inner blocks.
memory::dims get_inner_idxs() const
Returns inner indices of the memory descriptor.
Returns:
A copy of the inner indices vector.
An empty dnnl::memory::dims if the memory descriptor does not have inner indices.
memory::data_type get_data_type() const
Returns the data type of the memory descriptor.
Returns:
The data type.
memory::format_kind get_format_kind() const
Returns the format kind of the memory descriptor.
Returns:
the format kind.
memory::dims get_dims() const
Returns dimensions of the memory descriptor.
Potentially expensive due to the data copy involved.
Returns:
A copy of the dimensions vector.
size_t get_size() const
Returns size of the memory descriptor in bytes.
Returns:
The number of bytes required to allocate a memory buffer for the memory object described by this memory descriptor including the padding area.
bool is_zero() const
Checks whether the memory descriptor is zero (empty).
Returns:
true if the memory descriptor describes an empty memory and false otherwise.
bool operator == (const desc& other) const
An equality operator.
Parameters:
other |
Another memory descriptor. |
Returns:
Whether this and the other memory descriptors have the same format tag, dimensions, strides, blocking, etc.
bool operator != (const desc& other) const
An inequality operator.
Parameters:
other |
Another memory descriptor. |
Returns:
Whether this and the other memory descriptors describe different memory.