Title: Search Spaces for 'mlr3'
Version: 0.6.0
Description: Collection of search spaces for hyperparameter optimization in the 'mlr3' ecosystem. It features ready-to-use search spaces for many popular machine learning algorithms. The search spaces are from scientific articles and work for a wide range of data sets.
License: LGPL-3
URL: https://mlr3tuningspaces.mlr-org.com, https://github.com/mlr-org/mlr3tuningspaces
BugReports: https://github.com/mlr-org/mlr3tuningspaces/issues
Depends: mlr3tuning (≥ 0.15.0), R (≥ 3.1.0)
Imports: cli, checkmate (≥ 2.0.0), data.table (≥ 1.14.0), mlr3 (≥ 0.11.0), mlr3misc (≥ 0.11.0), paradox (≥ 0.7.1), R6 (≥ 2.5.0)
Suggests: e1071 (≥ 1.7-6), bbotk, glmnet (≥ 4.1-2), mlr3learners (≥ 0.4.5), mlr3pipelines, ranger (≥ 0.12.1), rpart (≥ 4.1-15), testthat (≥ 3.0.0), xgboost (≥ 1.4.1.1)
Config/testthat/edition: 3
Encoding: UTF-8
RoxygenNote: 7.3.2
Collate: 'mlr_tuning_spaces.R' 'TuningSpace.R' 'bibentries.R' 'sugar.R' 'tuning_spaces_default.R' 'tuning_spaces_rbv1.R' 'tuning_spaces_rbv2.R' 'zzz.R'
NeedsCompilation: no
Packaged: 2025-05-16 21:04:21 UTC; marc
Author: Marc Becker ORCID iD [cre, aut], Michel Lang ORCID iD [ctb]
Maintainer: Marc Becker <marcbecker@posteo.de>
Repository: CRAN
Date/Publication: 2025-05-16 23:40:01 UTC

mlr3tuningspaces: Search Spaces for 'mlr3'

Description

logo

Collection of search spaces for hyperparameter optimization in the 'mlr3' ecosystem. It features ready-to-use search spaces for many popular machine learning algorithms. The search spaces are from scientific articles and work for a wide range of data sets.

Author(s)

Maintainer: Marc Becker marcbecker@posteo.de (ORCID)

Other contributors:

See Also

Useful links:

Tuning Spaces

Description

This class defines a tuning space for hyperparameter tuning.

For tuning, it is important to create a search space that defines the range over which hyperparameters should be tuned. TuningSpace object consists of search spaces from peer-reviewed articles which work well for a wide range of data sets.

The ⁠$values⁠ field stores a list of paradox::TuneToken which define the search space. These tokens can be assigned to the ⁠$values⁠ slot of a learner's paradox::ParamSet. When the learner is tuned, the tokens are used to create the search space.

S3 Methods

Public fields

id

(character(1))
Identifier of the object.

values

(list())
List of paradox::TuneToken that describe the tuning space and fixed parameter values.

tags

(character())
Arbitrary tags to group and filter tuning space e.g. "classification" or "regression".

learner

(character(1))
mlr3::Learner of the tuning space.

package

(character(1))
Packages which provide the mlr3::Learner, e.g. mlr3learners for the learner mlr3learners::LearnerClassifRanger which interfaces the ranger package.

label

(character(1))
Label for this object. Can be used in tables, plot and text output instead of the ID.

man

(character(1))
String in the format ⁠[pkg]::[topic]⁠ pointing to a manual page for this object. The referenced help package can be opened via method ⁠$help()⁠.

Methods

Public methods

Method new()

Creates a new instance of this R6 class.

Usage
TuningSpace$new(
  id,
  values,
  tags,
  learner,
  package = character(),
  label = NA_character_,
  man = NA_character_
)
Arguments
id

(character(1))
Identifier for the new instance.

values

(list())
List of paradox::TuneToken that describe the tuning space and fixed parameter values.

tags

(character())
Tags to group and filter tuning spaces e.g. "classification" or "regression".

learner

(character(1))
mlr3::Learner of the tuning space.

package

(character())
Packages which provide the mlr3::Learner, e.g. mlr3learners for the learner mlr3learners::LearnerClassifRanger which interfaces the ranger package.

label

(character(1))
Label for the new instance. Can be used in tables, plot and text output instead of the ID.

man

(character(1))
String in the format ⁠[pkg]::[topic]⁠ pointing to a manual page for for the new instance. The referenced help package can be opened via method ⁠$help()⁠.

Method get_learner()

Returns a learner with paradox::TuneToken set in parameter set.

Usage
TuningSpace$get_learner(...)
Arguments
...

(named ‘list()’)
Passed to mlr3::lrn(). Named arguments passed to the constructor, to be set as parameters in the paradox::ParamSet, or to be set as public field. See mlr3misc::dictionary_sugar_get() for more details.

Returns

mlr3::Learner

Method format()

Helper for print outputs.

Usage
TuningSpace$format(...)
Arguments
...

(ignored).

Method help()

Opens the corresponding help page referenced by field ⁠$man⁠.

Usage
TuningSpace$help()

Method print()

Printer.

Usage
TuningSpace$print(...)
Arguments
...

(ignored).

Method clone()

The objects of this class are cloneable with this method.

Usage
TuningSpace$clone(deep = FALSE)
Arguments
deep

Whether to make a deep clone.

Examples

library(mlr3tuning)

# Get default tuning space of rpart learner
tuning_space = lts("classif.rpart.default")

# Set tuning space
learner = lrn("classif.rpart")
learner$param_set$values = tuning_space$values

# Tune learner
instance = tune(
  tnr("random_search"),
  task = tsk("pima"),
  learner = learner,
  resampling = rsmp ("holdout"),
  measure = msr("classif.ce"),
  term_evals = 10)

instance$result

library(mlr3pipelines)

# Set tuning space in a pipeline
graph_learner = as_learner(po("subsample") %>>%
  lts(lrn("classif.rpart")))

Syntactic Sugar for Tuning Space Construction

Description

Function to retrieve TuningSpace objects from mlr_tuning_spaces and further, allows a mlr3::Learner to be directly configured with a search space. This function belongs to mlr3::mlr_sugar family.

Usage

lts(x, ...)

## S3 method for class 'missing'
lts(x, ...)

## S3 method for class 'character'
lts(x, ...)

## S3 method for class 'Learner'
lts(x, ...)

ltss(x)

Arguments

x

(character() | mlr3::Learner)
If character, key passed the dictionary to retrieve the tuning space. If mlr3::Learner, default tuning space is added to the learner.

...

(named list of paradox::TuneToken | NULL)
Pass paradox::TuneToken to add or overwrite parameters in the tuning space. Use NULL to remove parameters (see examples).

Value

TuningSpace if x is character(). mlr3::Learner if x is mlr3::Learner. Or a list of objects for the ltss() function.

missing, mlr_tuning_spaces dictionary

a character, TuningSpace

a mlr3::Learner, mlr3::Learner with paradox::TuneToken

a list(), list of TuningSpace or mlr3::Learner

Examples

# load tuning space
lts("classif.rpart.default")

# load tuning space and add parameter
lts("classif.rpart.default", maxdepth = to_tune(1, 15))

# load tuning space and remove parameter
lts("classif.rpart.default", minsplit = NULL)

# load tuning space and overwrite parameter
lts("classif.rpart.default", minsplit = to_tune(32, 128))

# load learner and apply tuning space in one go
lts(lrn("classif.rpart"))

# load learner, overwrite parameter and apply tuning space
lts(lrn("classif.rpart"), minsplit = to_tune(32, 128))

# load multiple tuning spaces
ltss(c("classif.rpart.default", "classif.ranger.default"))

Dictionary of Tuning Spaces

Description

A simple mlr3misc::Dictionary storing objects of class TuningSpace. Each tuning space has an associated help page, see mlr_tuning_spaces_[id].

Format

R6::R6Class object inheriting from mlr3misc::Dictionary.

Methods

See mlr3misc::Dictionary.

S3 methods

Examples

as.data.table(mlr_tuning_spaces)
mlr_tuning_spaces$get("classif.ranger.default")
lts("classif.ranger.default")

Default Tuning Spaces

Description

Tuning spaces from the Bischl (2023) article.

glmnet tuning space

ranger tuning space

rpart tuning space

svm tuning space

xgboost tuning space

Source

Bischl B, Binder M, Lang M, Pielok T, Richter J, Coors S, Thomas J, Ullmann T, Becker M, Boulesteix A, Deng D, Lindauer M (2023). “Hyperparameter Optimization: Foundations, Algorithms, Best Practices and Open Challenges.”

RandomBot Tuning Spaces

Description

Tuning spaces from the Kuehn (2018) article.

glmnet tuning space

ranger tuning space

The tuning space of the ranger learner is slightly different from the original paper. The hyperparameter mtry.power is replaced by mtry.ratio and min.node.size is explored in a range from 1 to 100.

rpart tuning space

svm tuning space

xgboost tuning space

Source

Kuehn D, Probst P, Thomas J, Bischl B (2018). “Automatic Exploration of Machine Learning Experiments on OpenML.” 1806.10961, https://arxiv.org/abs/1806.10961.

RandomBot V2 Tuning Spaces

Description

Tuning spaces from the Binder (2020) article.

glmnet tuning space

ranger tuning space

mtry.power is replaced by mtry.ratio.

rpart tuning space

svm tuning space

xgboost tuning space

Source

Binder M, Pfisterer F, Bischl B (2020). “Collecting Empirical Data About Hyperparameters for Data Driven AutoML.” https://www.automl.org/wp-content/uploads/2020/07/AutoML_2020_paper_63.pdf.