In evalclass/prcbench: Testing Workbench for Precision-Recall Curves
prcbench 
The aim of the prcbench package is to provide a testing workbench for evaluating
precision-recall curves under various conditions. It contains integrated
interfaces for the following five tools. It also contains predefined test data sets.
Tool Language Link
precrec R Tool web site, CRAN
ROCR R Tool web site, CRAN
PRROC R CRAN
AUCCalculator Java Tool web site
PerfMeas R CRAN
Disclaimer: prcbench was originally develop to help our precrec library in order to provide fast and accurate calculations of precision-recall curves with extra functionality.
Accuracy evaluation of precision-recall curves
prcbench uses pre-defined test sets to help evaluate the accuracy of precision-recall curves.
create_toolset: creates objects of different tools for testing (5 different tools)create_testset: selects pre-defined data sets (c1, c2, and c3)run_evalcurve: evaluates the selected tools on the simulation dataautoplot: shows the results with ggplot2 and patchwork
## Load library
library(prcbench)
## Plot base points and the result of 5 tools on pre-defined test sets (c1, c2, and c3)
toolset <- create_toolset(c("precrec", "ROCR", "AUCCalculator", "PerfMeas", "PRROC"))
testset <- create_testset("curve", c("c1", "c2", "c3"))
scores1 <- run_evalcurve(testset, toolset)
autoplot(scores1, ncol = 3, nrow = 2)
Running-time evaluation of precision-recall curves
prcbench helps create simulation data to measure computational times of creating precision-recall curves.
create_toolset: creates objects of different tools for testingcreate_testset: creates simulation datarun_benchmark: evaluates the selected tools on the simulation data
## Load library
library(prcbench)
## Run benchmark for auc5 (5 tools) on b10 (balanced 5 positives and 5 negatives)
toolset <- create_toolset(set_names = "auc5")
testset <- create_testset("bench", "b10")
res <- run_benchmark(testset, toolset)
print(res)
## Use knitr::kable to show the result in a table format
knitr::kable(res$tab, digits = 2)
Documentation
-
Introduction to prcbench -- a package vignette that contains the descriptions of the functions with several useful examples. View the vignette with vignette("introduction", package = "prcbench") in R.
-
Help pages -- all the functions including the S3 generics have their own help pages with plenty of examples. View the main help page with help(package = "prcbench") in R.
Installation
CRAN
install.packages("prcbench")
Dependencies
AUCCalculator requires a Java runtime environment (>= 6) if AUCCalculator needs to be evaluated.
GitHub
You can install a development version of prcbench from our GitHub repository.
devtools::install_github("evalclass/prcbench")
-
Make sure you have a working development environment.
-
Windows: Install Rtools (available on the CRAN website).
-
Mac: Install Xcode from the Mac App Store.
-
Linux: Install a compiler and various development libraries (details vary across different flavors of Linux).
-
Install devtools from CRAN with install.packages("devtools").
-
Install prcbench from the GitHub repository with devtools::install_github("evalclass/prcbench").
Troubleshooting
microbenchmark
microbenchmark does not work on some OSs.
prcbench uses system.time when microbenchmark is not available.
rJava
- Some OSs require en extra configuration step after rJava installation.
sudo R CMD javareconf
- JDKs
- Oracle JDK
-
-
JDKs for macOS
- AdoptOpenJDK
-
-
JRI support on macOS Big Sur -- see this Stack Overflow thread.
install.packages("rJava", configure.args = "--disable-jri")
Citation
Precrec: fast and accurate precision-recall and ROC curve calculations in R
Takaya Saito; Marc Rehmsmeier
Bioinformatics 2017; 33 (1): 145-147.
doi: 10.1093/bioinformatics/btw570
External links
-
Classifier evaluation with imbalanced datasets -- our web site that contains several pages with useful tips for performance evaluation on binary classifiers.
-
The Precision-Recall Plot Is More Informative than the ROC Plot When Evaluating Binary Classifiers on Imbalanced Datasets -- our paper that summarized potential pitfalls of ROC plots with imbalanced datasets and advantages of using precision-recall plots instead.
evalclass/prcbench documentation built on March 20, 2023, 1:21 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.
prcbench
The aim of the prcbench package is to provide a testing workbench for evaluating
precision-recall curves under various conditions. It contains integrated
interfaces for the following five tools. It also contains predefined test data sets.
Tool Language Link
precrec R Tool web site, CRAN ROCR R Tool web site, CRAN PRROC R CRAN AUCCalculator Java Tool web site PerfMeas R CRAN
Disclaimer: prcbench was originally develop to help our precrec library in order to provide fast and accurate calculations of precision-recall curves with extra functionality.
Accuracy evaluation of precision-recall curves
prcbench uses pre-defined test sets to help evaluate the accuracy of precision-recall curves.
create_toolset: creates objects of different tools for testing (5 different tools)create_testset: selects pre-defined data sets (c1, c2, and c3)run_evalcurve: evaluates the selected tools on the simulation dataautoplot: shows the results withggplot2andpatchwork
## Load library library(prcbench) ## Plot base points and the result of 5 tools on pre-defined test sets (c1, c2, and c3) toolset <- create_toolset(c("precrec", "ROCR", "AUCCalculator", "PerfMeas", "PRROC")) testset <- create_testset("curve", c("c1", "c2", "c3")) scores1 <- run_evalcurve(testset, toolset) autoplot(scores1, ncol = 3, nrow = 2)
Running-time evaluation of precision-recall curves
prcbench helps create simulation data to measure computational times of creating precision-recall curves.
create_toolset: creates objects of different tools for testingcreate_testset: creates simulation datarun_benchmark: evaluates the selected tools on the simulation data
## Load library library(prcbench) ## Run benchmark for auc5 (5 tools) on b10 (balanced 5 positives and 5 negatives) toolset <- create_toolset(set_names = "auc5") testset <- create_testset("bench", "b10") res <- run_benchmark(testset, toolset) print(res)
## Use knitr::kable to show the result in a table format knitr::kable(res$tab, digits = 2)
Documentation
-
Introduction to prcbench -- a package vignette that contains the descriptions of the functions with several useful examples. View the vignette with
vignette("introduction", package = "prcbench")in R. -
Help pages -- all the functions including the S3 generics have their own help pages with plenty of examples. View the main help page with
help(package = "prcbench")in R.
Installation
CRAN
install.packages("prcbench")
Dependencies
AUCCalculator requires a Java runtime environment (>= 6) if AUCCalculator needs to be evaluated.
GitHub
You can install a development version of prcbench from our GitHub repository.
devtools::install_github("evalclass/prcbench")
-
Make sure you have a working development environment.
-
Windows: Install Rtools (available on the CRAN website).
-
Mac: Install Xcode from the Mac App Store.
-
Linux: Install a compiler and various development libraries (details vary across different flavors of Linux).
-
Install
devtoolsfrom CRAN withinstall.packages("devtools"). -
Install
prcbenchfrom the GitHub repository withdevtools::install_github("evalclass/prcbench").
Troubleshooting
microbenchmark
microbenchmark does not work on some OSs.
prcbench uses system.time when microbenchmark is not available.
rJava
- Some OSs require en extra configuration step after rJava installation.
sudo R CMD javareconf
- JDKs
- Oracle JDK
-
JDKs for macOS
- AdoptOpenJDK
-
JRI support on macOS Big Sur -- see this Stack Overflow thread.
install.packages("rJava", configure.args = "--disable-jri")
Citation
Precrec: fast and accurate precision-recall and ROC curve calculations in R
Takaya Saito; Marc Rehmsmeier
Bioinformatics 2017; 33 (1): 145-147.
doi: 10.1093/bioinformatics/btw570
External links
-
Classifier evaluation with imbalanced datasets -- our web site that contains several pages with useful tips for performance evaluation on binary classifiers.
-
The Precision-Recall Plot Is More Informative than the ROC Plot When Evaluating Binary Classifiers on Imbalanced Datasets -- our paper that summarized potential pitfalls of ROC plots with imbalanced datasets and advantages of using precision-recall plots instead.
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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