Nothing
available_keys <- function(keys, key_type) {
cat(
paste0(
"Available ", key_type, " keys: ",
paste(unlist(lapply(names(keys), function(x) keys[[x]])),
collapse = ", ")))
}
#' Canonical Model Prediction Keys
#'
#' The canonical set of keys used for models and estimators that provide
#' different types of predicted values through their `predict()` method.
#'
#' @export
#' @examples \dontrun{
#' keys <- prediction_keys()
#'
#' # Get the available keys
#' keys
#'
#' # Key for retrieving probabilities from prediction values
#' keys$PROBABILITIES
#' }
#'
#' @family estimator keys
prediction_keys <- function() {
canned_estimator_lib$prediction_keys$PredictionKeys()
}
#' @export
print.tensorflow.python.estimator.canned.prediction_keys.PredictionKeys <- function(x, ...) {
available_keys(prediction_keys(), "prediction")
}
#' Canonical Metric Keys
#'
#' The canonical set of keys that can be used to access metrics from canned
#' estimators.
#'
#' @examples \dontrun{
#' metrics <- metric_keys()
#'
#' # Get the available keys
#' metrics
#'
#' metrics$ACCURACY
#' }
#'
#' @export
#' @family estimator keys
metric_keys <- function() {
canned_estimator_lib$metric_keys$MetricKeys()
}
#' @export
print.tensorflow.python.estimator.canned.metric_keys.MetricKeys <- function(x, ...) {
available_keys(metric_keys(), "metric")
}
#' Canonical Mode Keys
#'
#' The names for different possible modes for an estimator. The following
#' standard keys are defined:
#'
#' \tabular{ll}{
#' `TRAIN` \tab Training mode. \cr
#' `EVAL` \tab Evaluation mode. \cr
#' `PREDICT` \tab Prediction / inference mode. \cr
#' }
#'
#' @examples \dontrun{
#' modes <- mode_keys()
#' modes$TRAIN
#' }
#'
#' @export
#' @family estimator keys
mode_keys <- function() {
tf$estimator$ModeKeys()
}
#' @export
print.tensorflow.python.estimator.model_fn.ModeKeys <- function(x, ...) {
available_keys(mode_keys(), "mode")
}
#' Standard Names to Use for Graph Collections
#'
#' The standard library uses various well-known names to collect and retrieve
#' values associated with a graph.
#'
#' For example, the `tf$Optimizer` subclasses default to optimizing the
#' variables collected under`graph_keys()$TRAINABLE_VARIABLES` if `NULL` is
#' specified, but it is also possible to pass an explicit list of variables.
#'
#' The following standard keys are defined:
#'
#' * `GLOBAL_VARIABLES`: the default collection of `Variable` objects, shared
#' across distributed environment (model variables are subset of these). See
#' `tf$global_variables` for more details. Commonly, all `TRAINABLE_VARIABLES`
#' variables will be in `MODEL_VARIABLES`, and all `MODEL_VARIABLES` variables
#' will be in `GLOBAL_VARIABLES`.
#'
#' * `LOCAL_VARIABLES`: the subset of `Variable` objects that are local to each
#' machine. Usually used for temporarily variables, like counters. Note: use
#' `tf$contrib$framework$local_variable` to add to this collection.
#'
#' * `MODEL_VARIABLES`: the subset of `Variable` objects that are used in the
#' model for inference (feed forward). Note: use
#' `tf$contrib$framework$model_variable` to add to this collection.
#'
#' * `TRAINABLE_VARIABLES`: the subset of `Variable` objects that will be
#' trained by an optimizer. See `tf$trainable_variables` for more details.
#'
#' * `SUMMARIES`: the summary `Tensor` objects that have been created in the
#' graph. See `tf$summary$merge_all` for more details.
#'
#' * `QUEUE_RUNNERS`: the `QueueRunner` objects that are used to produce input
#' for a computation. See `tf$train$start_queue_runners` for more details.
#'
#' * `MOVING_AVERAGE_VARIABLES`: the subset of `Variable` objects that will also
#' keep moving averages. See `tf$moving_average_variables` for more details.
#'
#' * `REGULARIZATION_LOSSES`: regularization losses collected during graph
#' construction. The following standard keys are defined, but their
#' collections are **not** automatically populated as many of the others are:
#' * `WEIGHTS`
#' * `BIASES`
#' * `ACTIVATIONS`
#'
#' @examples \dontrun{
#' graph_keys()
#' graph_keys()$LOSSES
#' }
#'
#' @export
#' @family utility functions
graph_keys <- function() {
tf$python$framework$ops$GraphKeys()
}
#' @export
print.tensorflow.python.framework.ops.GraphKeys <- function(x, ...) {
available_keys(graph_keys(), "graph")
}
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