#
# Copyright (c) 2021, NVIDIA CORPORATION.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
from inspect import getsourcelines, signature
from merlin.core.dispatch import DataFrameType, annotate
from .operator import ColumnSelector, Operator
[docs]class LambdaOp(Operator):
"""
LambdaOp allows you to apply row level functions to an NVTabular workflow.
Example usage 1::
# Define a ColumnSelector that LamdaOp will apply to
# then define a custom function, e.g. extract first 5 character from a string
lambda_feature = ColumnSelector(["col1"])
new_lambda_feature = lambda_feature >> (lambda col: col.str.slice(0, 5))
processor = nvtabular.Workflow(new_lambda_feature + 'label')
Example usage 2::
# define a custom function e.g. calculate probability for different events.
# Rename the each new feature column name.
lambda_features = ColumnSelector(['event1', 'event2', 'event3']), # columns, f is applied to
def cond_prob(col, gdf):
col = col.astype(np.float32)
col = col / gdf['total_events']
return col
new_lambda_features = lambda_features >> LambdaOp(cond_prob, dependency=["total_events"]) \
>> Rename(postfix="_cond")
processor = nvtabular.Workflow(new_lambda_features + 'label')
Parameters
-----------
f : callable
Defines a function that takes a Series and an optional DataFrame as input,
and returns a new Series as the output.
dependency : list, default None
Whether to provide a dependency column or not.
"""
[docs] def __init__(self, f, dependency=None, label=None, dtype=None, tags=None, properties=None):
super().__init__()
if f is None:
raise ValueError("f cannot be None. LambdaOp op applies f to dataframe")
self.f = f
self._param_count = len(signature(self.f).parameters)
if self._param_count not in (1, 2):
raise ValueError("lambda function must accept either one or two parameters")
self.dependency = dependency
self._label = label
self._dtype = dtype
self._tags = tags or []
self._properties = properties or {}
transform.__doc__ = Operator.transform.__doc__
@property
def dependencies(self):
return self.dependency
@property
def label(self):
# if we're given an explicit label to use, return it
if self._label:
return self._label
# if we have a named function (not a lambda) return the function name
name = self.f.__name__
if name != "<lambda>":
return name
else:
# otherwise get the lambda source code from the inspect module if possible
source = getsourcelines(self.f)[0][0]
lambdas = [op.strip() for op in source.split(">>") if "lambda " in op]
if len(lambdas) == 1 and lambdas[0].count("lambda") == 1:
return lambdas[0]
# Failed to figure out the source
return "LambdaOp"
[docs] def column_mapping(self, col_selector):
filtered_selector = self._remove_deps(col_selector, self.dependencies)
return super().column_mapping(filtered_selector)
def _remove_deps(self, col_selector, dependencies):
dependencies = dependencies or []
to_skip = ColumnSelector(
[
dep if isinstance(dep, str) else dep.output_schema.column_names
for dep in dependencies
]
)
return col_selector.filter_columns(to_skip)
@property
def dynamic_dtypes(self):
return True
@property
def output_dtype(self):
return self._dtype
@property
def output_tags(self):
return self._tags
@property
def output_properties(self):
return self._properties