In LudvigOlsen/R-splitters: Creating Groups from Data
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>",
fig.path = "man/figures/README-",
out.width = "100%",
dpi = 92,
fig.retina = 2
)
# Digits to print
options("digits"=3)
set.seed(1)
# Get minimum R requirement
dep <- as.vector(read.dcf('DESCRIPTION')[, 'Depends'])
rvers <- substring(dep, 7, nchar(dep)-1)
# m <- regexpr('R *\\\\(>= \\\\d+.\\\\d+.\\\\d+\\\\)', dep)
# rm <- regmatches(dep, m)
# rvers <- gsub('.*(\\\\d+.\\\\d+.\\\\d+).*', '\\\\1', dep)
# Function for TOC
# https://gist.github.com/gadenbuie/c83e078bf8c81b035e32c3fc0cf04ee8
groupdata2 
Author: Ludvig R. Olsen ( r-pkgs@ludvigolsen.dk )
License: MIT
Started: October 2016
Overview
R package for dividing data into groups.
- Create balanced partitions and cross-validation folds.
- Perform time series windowing and general grouping and splitting of data.
- Balance existing groups with up- and downsampling.
- Collapse existing groups to fewer, balanced groups.
- Finds values, or indices of values, that differ from the previous value by some threshold(s).
- Check if two grouping factors have the same groups, memberwise.
Main functions
|Function |Description |
|:---------------------|:------------------------------------------------------------------|
|group_factor() |Divides data into groups by a wide range of methods. |
|group() |Creates grouping factor and adds to the given data frame. |
|splt() |Creates grouping factor and splits the data by these groups. |
|partition() |Splits data into partitions. Balances a given categorical variable and/or numerical variable between partitions and keeps all data points with a shared ID in the same partition. |
|fold() |Creates folds for (repeated) cross-validation. Balances a given categorical variable and/or numerical variable between folds and keeps all data points with a shared ID in the same fold. |
|collapse_groups() |Collapses existing groups into a smaller set of groups with categorical, numerical, ID, and size balancing. |
|balance() |Uses up- and/or downsampling to equalize group sizes. Can balance on ID level. See wrappers: downsample(), upsample().|
Other tools
|Function |Description |
|:-------------------------|:------------------------------------------------------------------|
|all_groups_identical() |Checks whether two grouping factors contain the same groups, memberwise.|
|differs_from_previous() |Finds values, or indices of values, that differ from the previous value by some threshold(s).|
|find_starts() |Finds values or indices of values that are not the same as the previous value.|
|find_missing_starts() |Finds missing starts for the l_starts method.|
|summarize_group_cols() |Calculates summary statistics about group columns (i.e. factors).|
|summarize_balances() |Summarizes the balances of numeric, categorical, and ID columns in and between groups in one or more group columns. |
|ranked_balances() |Extracts the standard deviations from the Summary data frame from the output of summarize_balances() |
|%primes% |Finds remainder for the primes method. |
|%staircase% |Finds remainder for the staircase method.|
Table of Contents
groupdata2:::render_toc("README.Rmd")
Installation
CRAN version:
install.packages("groupdata2")
Development version:
install.packages("devtools")
devtools::install_github("LudvigOlsen/groupdata2")
Vignettes
groupdata2 contains a number of vignettes with relevant use cases and descriptions:
vignette(package = "groupdata2") # for an overview
vignette("introduction_to_groupdata2") # begin here
Data for examples
# Attach packages
library(groupdata2)
library(dplyr) # %>% filter() arrange() summarize()
library(knitr) # kable()
# Create small data frame
df_small <- data.frame(
"x" = c(1:12),
"species" = rep(c('cat', 'pig', 'human'), 4),
"age" = sample(c(1:100), 12),
stringsAsFactors = FALSE
)
# Create medium data frame
df_medium <- data.frame(
"participant" = factor(rep(c('1', '2', '3', '4', '5', '6'), 3)),
"age" = rep(c(20, 33, 27, 21, 32, 25), 3),
"diagnosis" = factor(rep(c('a', 'b', 'a', 'b', 'b', 'a'), 3)),
"diagnosis2" = factor(sample(c('x','z','y'), 18, replace = TRUE)),
"score" = c(10, 24, 15, 35, 24, 14, 24, 40, 30,
50, 54, 25, 45, 67, 40, 78, 62, 30))
df_medium <- df_medium %>% arrange(participant)
df_medium$session <- rep(c('1','2', '3'), 6)
Functions
group_factor()
Returns a factor with group numbers, e.g. factor(c(1,1,1,2,2,2,3,3,3)).
This can be used to subset, aggregate, group_by, etc.
Create equally sized groups by setting force_equal = TRUE
Randomize grouping factor by setting randomize = TRUE
# Create grouping factor
group_factor(
data = df_small,
n = 5,
method = "n_dist"
)
group()
Creates a grouping factor and adds it to the given data frame. The data frame is grouped by the grouping factor for easy use in magrittr (%>%) pipelines.
# Use group()
group(data = df_small, n = 5, method = 'n_dist') %>%
kable()
# Use group() in a pipeline
# Get average age per group
df_small %>%
group(n = 5, method = 'n_dist') %>%
dplyr::summarise(mean_age = mean(age)) %>%
kable()
# Using group() with 'l_starts' method
# Starts group at the first 'cat',
# then skips to the second appearance of "pig" after "cat",
# then starts at the following "cat".
df_small %>%
group(n = list("cat", c("pig", 2), "cat"),
method = 'l_starts',
starts_col = "species") %>%
kable()
splt()
Creates the specified groups with group_factor() and splits the given data by the grouping factor with base::split. Returns the splits in a list.
splt(data = df_small,
n = 3,
method = 'n_dist') %>%
kable()
partition()
Creates (optionally) balanced partitions (e.g. training/test sets). Balance partitions on categorical variable(s) and/or a numerical variable. Make sure that all datapoints sharing an ID is in the same partition.
# First set seed to ensure reproducibility
set.seed(1)
# Use partition() with categorical and numerical balancing,
# while ensuring all rows per ID are in the same partition
df_partitioned <- partition(
data = df_medium,
p = 0.7,
cat_col = 'diagnosis',
num_col = "age",
id_col = 'participant'
)
df_partitioned %>%
kable()
fold()
Creates (optionally) balanced folds for use in cross-validation. Balance folds on categorical variable(s) and/or a numerical variable. Ensure that all datapoints sharing an ID is in the same fold. Create multiple unique fold columns at once, e.g. for repeated cross-validation.
# First set seed to ensure reproducibility
set.seed(1)
# Use fold() with categorical and numerical balancing,
# while ensuring all rows per ID are in the same fold
df_folded <- fold(
data = df_medium,
k = 3,
cat_col = 'diagnosis',
num_col = "age",
id_col = 'participant'
)
# Show df_folded ordered by folds
df_folded %>%
arrange(.folds) %>%
kable()
# Show distribution of diagnoses and participants
df_folded %>%
group_by(.folds) %>%
count(diagnosis, participant) %>%
kable()
# Show age representation in folds
# Notice that we would get a more even distribution if we had more data.
# As age is fixed per ID, we only have 3 ages per category to balance with.
df_folded %>%
group_by(.folds) %>%
summarize(mean_age = mean(age),
sd_age = sd(age)) %>%
kable()
Notice, that the we now have the opportunity to include the session variable and/or use participant as a random effect in our model when doing cross-validation, as any participant will only appear in one fold.
We also have a balance in the representation of each diagnosis, which could give us better, more consistent results.
collapse_groups()
Collapses a set of groups into a smaller set of groups while attempting to balance the new groups by specified numerical columns, categorical columns, level counts in ID columns, and/or the number of rows.
# We consider each participant a group
# and collapse them into 3 new groups
# We balance the number of levels in diagnosis2 column,
# as this diagnosis is not constant within the participants
df_collapsed <- collapse_groups(
data = df_medium,
n = 3,
group_cols = 'participant',
cat_cols = 'diagnosis2',
num_cols = "score"
)
# Show df_collapsed ordered by new collapsed groups
df_collapsed %>%
arrange(.coll_groups) %>%
kable()
# Summarize the balances of the new groups
coll_summ <- df_collapsed %>%
summarize_balances(group_cols = '.coll_groups',
cat_cols = "diagnosis2",
num_cols = "score")
coll_summ$Groups %>%
kable()
coll_summ$Summary %>%
kable()
# Check the across-groups standard deviations
# This is a measure of how balanced the groups are (lower == more balanced)
# and is especially useful when comparing multiple group columns
coll_summ %>%
ranked_balances() %>%
kable()
Recommended: By enabling the auto_tune setting, we often get a much better balance.
balance()
Uses up- and/or downsampling to fix the group sizes to the min, max, mean, or median group size or to a specific number of rows.
Balancing can also happen on the ID level, e.g. to ensure the same number of IDs in each category.
# Lets first unbalance the dataset by removing some rows
df_b <- df_medium %>%
arrange(diagnosis) %>%
filter(!row_number() %in% c(5,7,8,13,14,16,17,18))
# Show distribution of diagnoses and participants
df_b %>%
count(diagnosis, participant) %>%
kable()
# First set seed to ensure reproducibility
set.seed(1)
# Downsampling by diagnosis
balance(
data = df_b,
size = "min",
cat_col = "diagnosis"
) %>%
count(diagnosis, participant) %>%
kable()
# Downsampling the IDs
balance(
data = df_b,
size = "min",
cat_col = "diagnosis",
id_col = "participant",
id_method = "n_ids"
) %>%
count(diagnosis, participant) %>%
kable()
Grouping Methods
There are currently 10 methods available. They can be divided into 6 categories.
Examples of group sizes are based on a vector with 57 elements.
Specify group size
Method: greedy
Divides up the data greedily given a specified group size.
E.g. group sizes: 10, 10, 10, 10, 10, 7
Specify number of groups
Method: n_dist (Default)
Divides the data into a specified number of groups and
distributes excess data points across groups.
E.g. group sizes: 11, 11, 12, 11, 12
Method: n_fill
Divides the data into a specified number of groups and
fills up groups with excess data points from the beginning.
E.g. group sizes: 12, 12, 11, 11, 11
Method: n_last
Divides the data into a specified number of groups.
The algorithm finds the most equal group sizes possible,
using all data points. Only the last group is able to differ in size.
E.g. group sizes: 11, 11, 11, 11, 13
Method: n_rand
Divides the data into a specified number of groups.
Excess data points are placed randomly in groups (only 1 per group).
E.g. group sizes: 12, 11, 11, 11, 12
Specify list
Method: l_sizes
Uses a list / vector of group sizes to divide up the data.
Excess data points are placed in an extra group.
E.g. n = c(11, 11) returns group sizes: 11, 11, 35
Method: l_starts
Uses a list of starting positions to divide up the data.
Starting positions are values in a vector (e.g. column in data frame).
Skip to a specific nth appearance of a value by using c(value, skip_to).
E.g. n = c(11, 15, 27, 43) returns group sizes: 10, 4, 12, 16, 15
Identical to n = list(11, 15, c(27, 1), 43 where 1 specifies that we
want the first appearance of 27 after the previous value 15.
If passing n = "auto" starting positions are automatically found with find_starts().
Specify distance between members
Method: every
Every nth data point is combined to a group.
E.g. group sizes: 12, 12, 11, 11, 11
Specify step size
Method: staircase
Uses step_size to divide up the data.
Group size increases with 1 step for every group, until there is no more data.
E.g. group sizes: 5, 10, 15, 20, 7
Specify start at
Method: primes
Creates groups with sizes corresponding to prime numbers.
Starts at n (prime number). Increases to the the next prime number until there is no more data.
E.g. group sizes: 5, 7, 11, 13, 17, 4
Balancing ID Methods
There are currently 4 methods for balancing (up-/downsampling) on ID level in balance().
ID method: n_ids
Balances on ID level only. It makes sure there are the same number of IDs in each category. This might lead to a different number of rows between categories.
ID method: n_rows_c
Attempts to level the number of rows per category, while only removing/adding entire IDs. This is done with repetition and by iteratively picking the ID with the number of rows closest to the lacking/excessive number of rows in the category.
ID method: distributed
Distributes the lacking/excess rows equally between the IDs. If the number to distribute cannot be equally divided, some IDs will have 1 row more/less than the others.
ID method: nested
Balances the IDs within their categories, meaning that all IDs in a category will have the same number of rows.
LudvigOlsen/R-splitters documentation built on March 7, 2024, 6:59 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
knitr::opts_chunk$set( collapse = TRUE, comment = "#>", fig.path = "man/figures/README-", out.width = "100%", dpi = 92, fig.retina = 2 ) # Digits to print options("digits"=3) set.seed(1) # Get minimum R requirement dep <- as.vector(read.dcf('DESCRIPTION')[, 'Depends']) rvers <- substring(dep, 7, nchar(dep)-1) # m <- regexpr('R *\\\\(>= \\\\d+.\\\\d+.\\\\d+\\\\)', dep) # rm <- regmatches(dep, m) # rvers <- gsub('.*(\\\\d+.\\\\d+.\\\\d+).*', '\\\\1', dep) # Function for TOC # https://gist.github.com/gadenbuie/c83e078bf8c81b035e32c3fc0cf04ee8
groupdata2
Author: Ludvig R. Olsen ( r-pkgs@ludvigolsen.dk )
License: MIT
Started: October 2016
Overview
R package for dividing data into groups.
- Create balanced partitions and cross-validation folds.
- Perform time series windowing and general grouping and splitting of data.
- Balance existing groups with up- and downsampling.
- Collapse existing groups to fewer, balanced groups.
- Finds values, or indices of values, that differ from the previous value by some threshold(s).
- Check if two grouping factors have the same groups, memberwise.
Main functions
|Function |Description |
|:---------------------|:------------------------------------------------------------------|
|group_factor() |Divides data into groups by a wide range of methods. |
|group() |Creates grouping factor and adds to the given data frame. |
|splt() |Creates grouping factor and splits the data by these groups. |
|partition() |Splits data into partitions. Balances a given categorical variable and/or numerical variable between partitions and keeps all data points with a shared ID in the same partition. |
|fold() |Creates folds for (repeated) cross-validation. Balances a given categorical variable and/or numerical variable between folds and keeps all data points with a shared ID in the same fold. |
|collapse_groups() |Collapses existing groups into a smaller set of groups with categorical, numerical, ID, and size balancing. |
|balance() |Uses up- and/or downsampling to equalize group sizes. Can balance on ID level. See wrappers: downsample(), upsample().|
Other tools
|Function |Description |
|:-------------------------|:------------------------------------------------------------------|
|all_groups_identical() |Checks whether two grouping factors contain the same groups, memberwise.|
|differs_from_previous() |Finds values, or indices of values, that differ from the previous value by some threshold(s).|
|find_starts() |Finds values or indices of values that are not the same as the previous value.|
|find_missing_starts() |Finds missing starts for the l_starts method.|
|summarize_group_cols() |Calculates summary statistics about group columns (i.e. factors).|
|summarize_balances() |Summarizes the balances of numeric, categorical, and ID columns in and between groups in one or more group columns. |
|ranked_balances() |Extracts the standard deviations from the Summary data frame from the output of summarize_balances() |
|%primes% |Finds remainder for the primes method. |
|%staircase% |Finds remainder for the staircase method.|
Table of Contents
groupdata2:::render_toc("README.Rmd")
Installation
CRAN version:
install.packages("groupdata2")
Development version:
install.packages("devtools")
devtools::install_github("LudvigOlsen/groupdata2")
Vignettes
groupdata2 contains a number of vignettes with relevant use cases and descriptions:
vignette(package = "groupdata2")# for an overview
vignette("introduction_to_groupdata2")# begin here
Data for examples
# Attach packages library(groupdata2) library(dplyr) # %>% filter() arrange() summarize() library(knitr) # kable()
# Create small data frame df_small <- data.frame( "x" = c(1:12), "species" = rep(c('cat', 'pig', 'human'), 4), "age" = sample(c(1:100), 12), stringsAsFactors = FALSE )
# Create medium data frame df_medium <- data.frame( "participant" = factor(rep(c('1', '2', '3', '4', '5', '6'), 3)), "age" = rep(c(20, 33, 27, 21, 32, 25), 3), "diagnosis" = factor(rep(c('a', 'b', 'a', 'b', 'b', 'a'), 3)), "diagnosis2" = factor(sample(c('x','z','y'), 18, replace = TRUE)), "score" = c(10, 24, 15, 35, 24, 14, 24, 40, 30, 50, 54, 25, 45, 67, 40, 78, 62, 30)) df_medium <- df_medium %>% arrange(participant) df_medium$session <- rep(c('1','2', '3'), 6)
Functions
group_factor()
Returns a factor with group numbers, e.g. factor(c(1,1,1,2,2,2,3,3,3)).
This can be used to subset, aggregate, group_by, etc.
Create equally sized groups by setting force_equal = TRUE
Randomize grouping factor by setting randomize = TRUE
# Create grouping factor group_factor( data = df_small, n = 5, method = "n_dist" )
group()
Creates a grouping factor and adds it to the given data frame. The data frame is grouped by the grouping factor for easy use in magrittr (%>%) pipelines.
# Use group() group(data = df_small, n = 5, method = 'n_dist') %>% kable()
# Use group() in a pipeline # Get average age per group df_small %>% group(n = 5, method = 'n_dist') %>% dplyr::summarise(mean_age = mean(age)) %>% kable()
# Using group() with 'l_starts' method # Starts group at the first 'cat', # then skips to the second appearance of "pig" after "cat", # then starts at the following "cat". df_small %>% group(n = list("cat", c("pig", 2), "cat"), method = 'l_starts', starts_col = "species") %>% kable()
splt()
Creates the specified groups with group_factor() and splits the given data by the grouping factor with base::split. Returns the splits in a list.
splt(data = df_small, n = 3, method = 'n_dist') %>% kable()
partition()
Creates (optionally) balanced partitions (e.g. training/test sets). Balance partitions on categorical variable(s) and/or a numerical variable. Make sure that all datapoints sharing an ID is in the same partition.
# First set seed to ensure reproducibility set.seed(1) # Use partition() with categorical and numerical balancing, # while ensuring all rows per ID are in the same partition df_partitioned <- partition( data = df_medium, p = 0.7, cat_col = 'diagnosis', num_col = "age", id_col = 'participant' ) df_partitioned %>% kable()
fold()
Creates (optionally) balanced folds for use in cross-validation. Balance folds on categorical variable(s) and/or a numerical variable. Ensure that all datapoints sharing an ID is in the same fold. Create multiple unique fold columns at once, e.g. for repeated cross-validation.
# First set seed to ensure reproducibility set.seed(1) # Use fold() with categorical and numerical balancing, # while ensuring all rows per ID are in the same fold df_folded <- fold( data = df_medium, k = 3, cat_col = 'diagnosis', num_col = "age", id_col = 'participant' ) # Show df_folded ordered by folds df_folded %>% arrange(.folds) %>% kable()
# Show distribution of diagnoses and participants df_folded %>% group_by(.folds) %>% count(diagnosis, participant) %>% kable()
# Show age representation in folds # Notice that we would get a more even distribution if we had more data. # As age is fixed per ID, we only have 3 ages per category to balance with. df_folded %>% group_by(.folds) %>% summarize(mean_age = mean(age), sd_age = sd(age)) %>% kable()
Notice, that the we now have the opportunity to include the session variable and/or use participant as a random effect in our model when doing cross-validation, as any participant will only appear in one fold.
We also have a balance in the representation of each diagnosis, which could give us better, more consistent results.
collapse_groups()
Collapses a set of groups into a smaller set of groups while attempting to balance the new groups by specified numerical columns, categorical columns, level counts in ID columns, and/or the number of rows.
# We consider each participant a group # and collapse them into 3 new groups # We balance the number of levels in diagnosis2 column, # as this diagnosis is not constant within the participants df_collapsed <- collapse_groups( data = df_medium, n = 3, group_cols = 'participant', cat_cols = 'diagnosis2', num_cols = "score" ) # Show df_collapsed ordered by new collapsed groups df_collapsed %>% arrange(.coll_groups) %>% kable() # Summarize the balances of the new groups coll_summ <- df_collapsed %>% summarize_balances(group_cols = '.coll_groups', cat_cols = "diagnosis2", num_cols = "score") coll_summ$Groups %>% kable() coll_summ$Summary %>% kable() # Check the across-groups standard deviations # This is a measure of how balanced the groups are (lower == more balanced) # and is especially useful when comparing multiple group columns coll_summ %>% ranked_balances() %>% kable()
Recommended: By enabling the auto_tune setting, we often get a much better balance.
balance()
Uses up- and/or downsampling to fix the group sizes to the min, max, mean, or median group size or to a specific number of rows. Balancing can also happen on the ID level, e.g. to ensure the same number of IDs in each category.
# Lets first unbalance the dataset by removing some rows df_b <- df_medium %>% arrange(diagnosis) %>% filter(!row_number() %in% c(5,7,8,13,14,16,17,18)) # Show distribution of diagnoses and participants df_b %>% count(diagnosis, participant) %>% kable()
# First set seed to ensure reproducibility set.seed(1) # Downsampling by diagnosis balance( data = df_b, size = "min", cat_col = "diagnosis" ) %>% count(diagnosis, participant) %>% kable()
# Downsampling the IDs balance( data = df_b, size = "min", cat_col = "diagnosis", id_col = "participant", id_method = "n_ids" ) %>% count(diagnosis, participant) %>% kable()
Grouping Methods
There are currently 10 methods available. They can be divided into 6 categories.
Examples of group sizes are based on a vector with 57 elements.
Specify group size
Method: greedy
Divides up the data greedily given a specified group size.
E.g. group sizes: 10, 10, 10, 10, 10, 7
Specify number of groups
Method: n_dist (Default)
Divides the data into a specified number of groups and distributes excess data points across groups.
E.g. group sizes: 11, 11, 12, 11, 12
Method: n_fill
Divides the data into a specified number of groups and fills up groups with excess data points from the beginning.
E.g. group sizes: 12, 12, 11, 11, 11
Method: n_last
Divides the data into a specified number of groups. The algorithm finds the most equal group sizes possible, using all data points. Only the last group is able to differ in size.
E.g. group sizes: 11, 11, 11, 11, 13
Method: n_rand
Divides the data into a specified number of groups. Excess data points are placed randomly in groups (only 1 per group).
E.g. group sizes: 12, 11, 11, 11, 12
Specify list
Method: l_sizes
Uses a list / vector of group sizes to divide up the data.
Excess data points are placed in an extra group.
E.g. n = c(11, 11) returns group sizes: 11, 11, 35
Method: l_starts
Uses a list of starting positions to divide up the data.
Starting positions are values in a vector (e.g. column in data frame).
Skip to a specific nth appearance of a value by using c(value, skip_to).
E.g. n = c(11, 15, 27, 43) returns group sizes: 10, 4, 12, 16, 15
Identical to n = list(11, 15, c(27, 1), 43 where 1 specifies that we
want the first appearance of 27 after the previous value 15.
If passing n = "auto" starting positions are automatically found with find_starts().
Specify distance between members
Method: every
Every nth data point is combined to a group.
E.g. group sizes: 12, 12, 11, 11, 11
Specify step size
Method: staircase
Uses step_size to divide up the data. Group size increases with 1 step for every group, until there is no more data.
E.g. group sizes: 5, 10, 15, 20, 7
Specify start at
Method: primes
Creates groups with sizes corresponding to prime numbers.
Starts at n (prime number). Increases to the the next prime number until there is no more data.
E.g. group sizes: 5, 7, 11, 13, 17, 4
Balancing ID Methods
There are currently 4 methods for balancing (up-/downsampling) on ID level in balance().
ID method: n_ids
Balances on ID level only. It makes sure there are the same number of IDs in each category. This might lead to a different number of rows between categories.
ID method: n_rows_c
Attempts to level the number of rows per category, while only removing/adding entire IDs. This is done with repetition and by iteratively picking the ID with the number of rows closest to the lacking/excessive number of rows in the category.
ID method: distributed
Distributes the lacking/excess rows equally between the IDs. If the number to distribute cannot be equally divided, some IDs will have 1 row more/less than the others.
ID method: nested
Balances the IDs within their categories, meaning that all IDs in a category will have the same number of rows.
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