README.md
In njtierney/treezy: Makes it Easier To Work With Decision Trees
treezy
Makes handling output from decision trees easy. Treezy.
Decision trees are a commonly used tool in statistics and data science,
but sometimes getting the information out of them can be a bit tricky,
and can make other operations in a pipeline difficult.
treezy makes it easy to:
- Get varaible importance information
- Visualise variable importance
- Visualise partial dependence
The data structures created in treezy - importance_table are making
their way over to the
broomstick package - a member
of the broom family specifically focussing on decision trees, which
gives different output to many of the (many!) packages/analyses that
broom deals with.
I am interested in feedback, so please feel free to file an
issue if you have any
problems!
Installation
# install.packages("remotes")
remotes::install_github("njtierney/treezy")
Example usage
Explore variable importance with importance_table and importance_plot
rpart
library(treezy)
library(rpart)
fit_rpart_kyp <- rpart(Kyphosis ~ ., data = kyphosis)
# default method for looking at importance
# variable importance
fit_rpart_kyp$variable.importance
#> Start Age Number
#> 8.198442 3.101801 1.521863
# with treezy
importance_table(fit_rpart_kyp)
#> # A tibble: 3 x 2
#> variable importance
#> <fct> <dbl>
#> 1 Start 8.20
#> 2 Age 3.10
#> 3 Number 1.52
importance_plot(fit_rpart_kyp)
# extend and modify
library(ggplot2)
importance_plot(fit_rpart_kyp) +
theme_bw() +
labs(title = "My Importance Scores",
subtitle = "For a CART Model")
randomForest
library(randomForest)
#> randomForest 4.6-14
#> Type rfNews() to see new features/changes/bug fixes.
#>
#> Attaching package: 'randomForest'
#> The following object is masked from 'package:ggplot2':
#>
#> margin
set.seed(131)
fit_rf_ozone <- randomForest(Ozone ~ .,
data = airquality,
mtry=3,
importance=TRUE,
na.action=na.omit)
fit_rf_ozone
#>
#> Call:
#> randomForest(formula = Ozone ~ ., data = airquality, mtry = 3, importance = TRUE, na.action = na.omit)
#> Type of random forest: regression
#> Number of trees: 500
#> No. of variables tried at each split: 3
#>
#> Mean of squared residuals: 302.2117
#> % Var explained: 72.46
## Show "importance" of variables: higher value mean more important:
# randomForest has a better importance method than rpart
importance(fit_rf_ozone)
#> %IncMSE IncNodePurity
#> Solar.R 9.7565080 10741.332
#> Wind 22.1546372 44234.960
#> Temp 43.8519213 53787.557
#> Month 2.5862801 1692.479
#> Day 0.9264646 6606.387
## use importance_table
importance_table(fit_rf_ozone)
#> # A tibble: 5 x 3
#> variable `%IncMSE` IncNodePurity
#> <fct> <dbl> <dbl>
#> 1 Solar.R 9.76 10741.
#> 2 Wind 22.2 44235.
#> 3 Temp 43.9 53788.
#> 4 Month 2.59 1692.
#> 5 Day 0.926 6606.
# now plot it
importance_plot(fit_rf_ozone)
Calculate residual sums of squares for rpart and randomForest
# CART
rss(fit_rpart_kyp)
#> [1] 13
# randomForest
rss(fit_rf_ozone)
#> [1] 33545.5
plot partial effects
Using gbm.step from dismo package
# using gbm.step from the dismo package
library(gbm)
library(dismo)
# load data
data(Anguilla_train)
anguilla_train <- Anguilla_train[1:200,]
# fit model
angaus_tc_5_lr_01 <- gbm.step(data = anguilla_train,
gbm.x = 3:14,
gbm.y = 2,
family = "bernoulli",
tree.complexity = 5,
learning.rate = 0.01,
bag.fraction = 0.5)
gg_partial_plot(angaus_tc_5_lr_01,
var = c("SegSumT",
"SegTSeas"))
Known issues
- The functions have not been made compatible with Gradient Boosted
Machines, but this is on the cards. This was initially written for
some old code which used gbm.step
- The partial dependence plots have not been tested, and were
initially intended for use with gbm.step, as in the elith et
al. paper
Future work
- Extend to other kinds of decision trees (
gbm, tree, ranger,
xgboost, and more)
- Provide tools for extracting out other decision tree information
(decision tree rules, surrogate splits, burling).
- Provide a method to extract out decision trees from randomForest and
BRT so that they can be visualised with rpart.plot,
- Provide tidy summary information of the decision trees, potentially
in the format of
broom’s augment, tidy, and glance
functions. For example, rpart_fit$splits
- Think about a way to store the data structure of a decision tree as
a nested dataframe
- Functions to allow for plotting of a prediction grid over two
variables
Acknowledgements
Credit for the name, “treezy”, goes to @MilesMcBain, thanks Miles!
njtierney/treezy documentation built on Oct. 10, 2019, 1:08 a.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.
treezy
Makes handling output from decision trees easy. Treezy.
Decision trees are a commonly used tool in statistics and data science, but sometimes getting the information out of them can be a bit tricky, and can make other operations in a pipeline difficult.
treezy makes it easy to:
- Get varaible importance information
- Visualise variable importance
- Visualise partial dependence
The data structures created in treezy - importance_table are making
their way over to the
broomstick package - a member
of the broom family specifically focussing on decision trees, which
gives different output to many of the (many!) packages/analyses that
broom deals with.
I am interested in feedback, so please feel free to file an
issue if you have any
problems!
Installation
# install.packages("remotes")
remotes::install_github("njtierney/treezy")
Example usage
Explore variable importance with importance_table and importance_plot
rpart
library(treezy)
library(rpart)
fit_rpart_kyp <- rpart(Kyphosis ~ ., data = kyphosis)
# default method for looking at importance
# variable importance
fit_rpart_kyp$variable.importance
#> Start Age Number
#> 8.198442 3.101801 1.521863
# with treezy
importance_table(fit_rpart_kyp)
#> # A tibble: 3 x 2
#> variable importance
#> <fct> <dbl>
#> 1 Start 8.20
#> 2 Age 3.10
#> 3 Number 1.52
importance_plot(fit_rpart_kyp)
# extend and modify
library(ggplot2)
importance_plot(fit_rpart_kyp) +
theme_bw() +
labs(title = "My Importance Scores",
subtitle = "For a CART Model")
randomForest
library(randomForest)
#> randomForest 4.6-14
#> Type rfNews() to see new features/changes/bug fixes.
#>
#> Attaching package: 'randomForest'
#> The following object is masked from 'package:ggplot2':
#>
#> margin
set.seed(131)
fit_rf_ozone <- randomForest(Ozone ~ .,
data = airquality,
mtry=3,
importance=TRUE,
na.action=na.omit)
fit_rf_ozone
#>
#> Call:
#> randomForest(formula = Ozone ~ ., data = airquality, mtry = 3, importance = TRUE, na.action = na.omit)
#> Type of random forest: regression
#> Number of trees: 500
#> No. of variables tried at each split: 3
#>
#> Mean of squared residuals: 302.2117
#> % Var explained: 72.46
## Show "importance" of variables: higher value mean more important:
# randomForest has a better importance method than rpart
importance(fit_rf_ozone)
#> %IncMSE IncNodePurity
#> Solar.R 9.7565080 10741.332
#> Wind 22.1546372 44234.960
#> Temp 43.8519213 53787.557
#> Month 2.5862801 1692.479
#> Day 0.9264646 6606.387
## use importance_table
importance_table(fit_rf_ozone)
#> # A tibble: 5 x 3
#> variable `%IncMSE` IncNodePurity
#> <fct> <dbl> <dbl>
#> 1 Solar.R 9.76 10741.
#> 2 Wind 22.2 44235.
#> 3 Temp 43.9 53788.
#> 4 Month 2.59 1692.
#> 5 Day 0.926 6606.
# now plot it
importance_plot(fit_rf_ozone)
Calculate residual sums of squares for rpart and randomForest
# CART
rss(fit_rpart_kyp)
#> [1] 13
# randomForest
rss(fit_rf_ozone)
#> [1] 33545.5
plot partial effects
Using gbm.step from dismo package
# using gbm.step from the dismo package
library(gbm)
library(dismo)
# load data
data(Anguilla_train)
anguilla_train <- Anguilla_train[1:200,]
# fit model
angaus_tc_5_lr_01 <- gbm.step(data = anguilla_train,
gbm.x = 3:14,
gbm.y = 2,
family = "bernoulli",
tree.complexity = 5,
learning.rate = 0.01,
bag.fraction = 0.5)
gg_partial_plot(angaus_tc_5_lr_01,
var = c("SegSumT",
"SegTSeas"))
Known issues
- The functions have not been made compatible with Gradient Boosted Machines, but this is on the cards. This was initially written for some old code which used gbm.step
- The partial dependence plots have not been tested, and were initially intended for use with gbm.step, as in the elith et al. paper
Future work
- Extend to other kinds of decision trees (
gbm,tree,ranger,xgboost, and more) - Provide tools for extracting out other decision tree information (decision tree rules, surrogate splits, burling).
- Provide a method to extract out decision trees from randomForest and BRT so that they can be visualised with rpart.plot,
- Provide tidy summary information of the decision trees, potentially
in the format of
broom’saugment,tidy, andglancefunctions. For example,rpart_fit$splits - Think about a way to store the data structure of a decision tree as a nested dataframe
- Functions to allow for plotting of a prediction grid over two variables
Acknowledgements
Credit for the name, “treezy”, goes to @MilesMcBain, thanks Miles!
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.
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