class nbla::PadPackedSequence

template<typename T> class PadPackedSequence : public nbla::BaseFunction<bool, float, int>

Pad packed sequence.

This method unpacks the packed sequqnce and pad it, the inverse operation of :func:`pack_padded_sequence`.

Inputs:

Packed sequence of ( \(N\), \(*\)) shape.
Batch size for each time and always resides in CPU.

Outputs:

Padded sequence of ( \(T \times B \times *\)) or ( \(B \times T \times *\)) shape.
Sequence length for each batch and always resides in CPU.

Template Parameters:: T – Data type for computation.
Param batch_first:: Padded sequence is of ( \(T\), \(B\), \(*\)) shape if False, otherwise ( \(B\), \(T\), \(*\)).
Param padding_value:: Padding value.
Param total_length:: If not -1, the outputs are padded up to the `total_length`. If the `total_length` is less than the max length in the `sequences`, the error is thrown.

Public Functions

inline virtual shared_ptr<Function> copy() const: Copy another instance of Function with the same context.

inline virtual int min_inputs()

Get minimum number of inputs.

This is meant to be used in setup function with in_types which is used to get maximum number of inputs.

inline virtual int min_outputs()

Get minimum number of outputs.

This is meant to be used in setup function with out_types which is used to get max number of outputs.

inline virtual vector<dtypes> in_types()

Get input dtypes.

Last in_type will be used repeatedly if size of in_types is smaller than size of inputs

inline virtual vector<dtypes> out_types()

Get output dtypes.

Last out_type will be used repeatedly if size of out_types is smaller than size of outputs

inline virtual vector<string> allowed_array_classes(): Get array classes that are allowed to be specified by Context.

inline virtual string name(): Get function name in string.

inline virtual bool grad_depends_output_data(int i, int o) const

Dependency flag for checking if in-grad depends on out-data.

Checking if i-th input’ gradient computation requires o-th output’s data or not.

Note

If any of inputs requires an output variable data when computing its gradient, this function must be overridden to return appropriate boolean value. Otherwise, backward computation will be incorrect.

Parameters:

i – [in] Input variable index.
o – [in] Output variable index.