Parsing Utilities

Overview

Parsing utilities are a set of functions that helps generate parsing spec for tf$parse_example to be used with estimators. If users keep data in tf$Example format, they need to call tf$parse_example with a proper feature spec. There are two main things that these utility functions help:

Users need to combine parsing spec of features with labels and weights (if any) since they are all parsed from same tf$Example instance. The utility functions combine these specs.
It is difficult to map expected label by a estimator such as dnn_classifier to corresponding tf$parse_example spec. The utility functions encode it by getting related information from users (key, dtype).

Example output of parsing spec

parsing_spec <- classifier_parse_example_spec(
  feature_columns = column_numeric('a'),
  label_key = 'b',
  weight_column = 'c'
)

For the above example, classifier_parse_example_spec would return the following:

expected_spec <- list(
  a = tf$python$ops$parsing_ops$FixedLenFeature(reticulate::tuple(1L), dtype = tf$float32),
  c = tf$python$ops$parsing_ops$FixedLenFeature(reticulate::tuple(1L), dtype = tf$float32),
  b = tf$python$ops$parsing_ops$FixedLenFeature(reticulate::tuple(1L), dtype = tf$int64)
)

# This should be the same as the one we constructed using `classifier_parse_example_spec`
testthat::expect_equal(parsing_spec, expected_spec)

Example usage with a classifier

Firstly, define features transformations and initiailize your classifier similar to the following:

fcs <- feature_columns(...)

model <- dnn_classifier(
  n_classes = 1000,
  feature_columns = fcs,
  weight_column = 'example-weight',
  label_vocabulary= c('photos', 'keep', ...),
  hidden_units = c(256, 64, 16)
)

Next, create the parsing configuration for tf$parse_example using classifier_parse_example_spec and the feature columns fcs we have just defined:

parsing_spec <- classifier_parse_example_spec(
  feature_columns = fcs,
  label_key = 'my-label',
  label_dtype = tf$string,
  weight_column = 'example-weight'
)

This label configuration tells the classifier the following:

weights are retrieved with key ‘example-weight’
label is string and can be one of the following c('photos', 'keep', ...)
integer id for label ‘photos’ is 0, ‘keep’ is 1, etc

Then define your input function with the help of read_batch_features that reads the batches of features from files in tf$Example format with the parsing configuration parsing_spec we just defined:

input_fn_train <- function() {
  features <- tf$contrib$learn$read_batch_features(
    file_pattern = train_files,
    batch_size = batch_size,
    features = parsing_spec,
    reader = tf$RecordIOReader)
  labels <- features[["my-label"]]
  return(list(features, labels))
}

Finally we can train the model using the training input function parsed by classifier_parse_example_spec:

train(model, input_fn = input_fn_train)