merlin.models.tf.ExpandDims#

class merlin.models.tf.ExpandDims(*args, **kwargs)[source]#

Bases: merlin.models.tf.core.tabular.TabularBlock

Expand dims of selected input tensors. Example:

inputs = {
    "cont_feat1": tf.random.uniform((NUM_ROWS,)),
    "cont_feat2": tf.random.uniform((NUM_ROWS,)),
    "multi_hot_categ_feat": tf.random.uniform(
        (NUM_ROWS, 4), minval=1, maxval=100, dtype=tf.int32
    ),
}
expand_dims_op = tr.ExpandDims(expand_dims={"cont_feat2": 0, "multi_hot_categ_feat": 1})
expanded_inputs = expand_dims_op(inputs)
__init__(expand_dims: Union[int, Dict[str, int]] = - 1, **kwargs)[source]#

Instantiates the ExpandDims transformation, which allows to expand dims of the input tensors :param expand_dims: Defines which dimensions should be expanded. If an int is provided, all input tensors

will have the same dimension expanded. If a dict is passed, only features matching the dict keys will be expanded, in the dimension specified as the dict values.

Methods

__init__([expand_dims])

Instantiates the ExpandDims transformation, which allows to expand dims of the input tensors :param expand_dims: Defines which dimensions should be expanded. If an int is provided, all input tensors will have the same dimension expanded. If a dict is passed, only features matching the dict keys will be expanded, in the dimension specified as the dict values. :type expand_dims: Union[int, Dict[str, int]], optional, by default -1.

add_loss(losses, **kwargs)

Add loss tensor(s), potentially dependent on layer inputs.

add_metric(value[, name])

Adds metric tensor to the layer.

add_update(updates)

Add update op(s), potentially dependent on layer inputs.

add_variable(*args, **kwargs)

Deprecated, do NOT use! Alias for add_weight.

add_weight([name, shape, dtype, ...])

Adds a new variable to the layer.

apply_to_all(inputs[, columns_to_filter])

as_tabular([name])

build(input_shapes)

build_from_config(config)

calculate_batch_size_from_input_shapes(...)

call(inputs, **kwargs)

call_outputs(outputs[, training])

check_schema([schema])

compute_call_output_shape(input_shapes)

compute_mask(inputs[, mask])

Computes an output mask tensor.

compute_output_shape(input_shape)

compute_output_signature(input_signature)

Compute the output tensor signature of the layer based on the inputs.

connect(*block[, block_name, context])

Connect the block to other blocks sequentially.

connect_branch(*branches[, add_rest, post, ...])

Connect the block to one or multiple branches.

connect_debug_block([append])

Connect the block to a debug block.

connect_with_residual(block[, activation])

Connect the block to other blocks sequentially with a residual connection.

connect_with_shortcut(block[, ...])

Connect the block to other blocks sequentially with a shortcut connection.

copy()

count_params()

Count the total number of scalars composing the weights.

finalize_state()

Finalizes the layers state after updating layer weights.

from_config(config)

from_features(features[, pre, post, ...])

Initializes a TabularLayer instance where the contents of features will be filtered out

from_layer(layer)

from_schema(schema[, tags, allow_none])

Instantiate a TabularLayer instance from a DatasetSchema.

get_build_config()

get_config()

get_input_at(node_index)

Retrieves the input tensor(s) of a layer at a given node.

get_input_mask_at(node_index)

Retrieves the input mask tensor(s) of a layer at a given node.

get_input_shape_at(node_index)

Retrieves the input shape(s) of a layer at a given node.

get_item_ids_from_inputs(inputs)

get_output_at(node_index)

Retrieves the output tensor(s) of a layer at a given node.

get_output_mask_at(node_index)

Retrieves the output mask tensor(s) of a layer at a given node.

get_output_shape_at(node_index)

Retrieves the output shape(s) of a layer at a given node.

get_padding_mask_from_item_id(inputs[, ...])

get_weights()

Returns the current weights of the layer, as NumPy arrays.

parse(*block)

parse_block(input)

post_call(inputs[, transformations, ...])

Method that's typically called after the forward method for post-processing.

pre_call(inputs[, transformations])

Method that's typically called before the forward method for pre-processing.

prepare([block, post, aggregation])

Transform the inputs of this block.

register_features(feature_shapes)

repeat([num])

Repeat the block num times.

repeat_in_parallel([num, prefix, names, ...])

Repeat the block num times in parallel.

repr_add()

repr_extra()

repr_ignore()

select_by_name(name)

select_by_tag(tags)

set_aggregation(value)

param value

set_post(value)

set_pre(value)

set_schema([schema])

set_weights(weights)

Sets the weights of the layer, from NumPy arrays.

super()

with_name_scope(method)

Decorator to automatically enter the module name scope.

Attributes

REQUIRES_SCHEMA

activity_regularizer

Optional regularizer function for the output of this layer.

aggregation

rtype: TabularAggregation, optional

compute_dtype

The dtype of the layer's computations.

context

dtype

The dtype of the layer weights.

dtype_policy

The dtype policy associated with this layer.

dynamic

Whether the layer is dynamic (eager-only); set in the constructor.

has_schema

inbound_nodes

Return Functional API nodes upstream of this layer.

input

Retrieves the input tensor(s) of a layer.

input_mask

Retrieves the input mask tensor(s) of a layer.

input_shape

Retrieves the input shape(s) of a layer.

input_spec

InputSpec instance(s) describing the input format for this layer.

is_input

is_tabular

losses

List of losses added using the add_loss() API.

metrics

List of metrics added using the add_metric() API.

name

Name of the layer (string), set in the constructor.

name_scope

Returns a tf.name_scope instance for this class.

non_trainable_variables

non_trainable_weights

List of all non-trainable weights tracked by this layer.

outbound_nodes

Return Functional API nodes downstream of this layer.

output

Retrieves the output tensor(s) of a layer.

output_mask

Retrieves the output mask tensor(s) of a layer.

output_shape

Retrieves the output shape(s) of a layer.

post

rtype: SequentialTabularTransformations, optional

pre

rtype: SequentialTabularTransformations, optional

registry

schema

stateful

submodules

Sequence of all sub-modules.

supports_masking

Whether this layer supports computing a mask using compute_mask.

trainable

trainable_variables

trainable_weights

List of all trainable weights tracked by this layer.

updates

variable_dtype

Alias of Layer.dtype, the dtype of the weights.

variables

Returns the list of all layer variables/weights.

weights

Returns the list of all layer variables/weights.

call(inputs: Dict[str, tensorflow.python.framework.ops.Tensor], **kwargs) Dict[str, tensorflow.python.framework.ops.Tensor][source]#
compute_output_shape(input_shape)[source]#