missForest
-blue.svg)missForest is a nonparametric imputation method for mixed-type tabular data in R. It handles numeric and categorical variables simultaneously by iteratively training random forests to predict missing entries from the observed ones. No explicit modeling assumptions, no matrix factorizations—just strong predictive baselines that work well out of the box.
- Works with any mix of numeric and factor columns
- Captures nonlinearities and interactions
- Reports out-of-bag (OOB) imputation error (NRMSE/PFC)
- Supports parallel execution (per-variable or per-forest)
- Two forest backends:
ranger(default) andrandomForest(legacy/compat)
Installation
# CRAN (recommended)
install.packages("missForest")Development version (from GitHub)
install.packages("remotes")
remotes::install_github("stekhoven/missForest")Quick start
library(missForest)Example data
data(iris)Introduce ~20% MCAR missingness
set.seed(81)
iris_mis <- prodNA(iris, noNA = 0.20)Impute with default backend (ranger)
imp <- missForest(iris_mis, xtrue = iris, verbose = TRUE)Imputed data
head(imp$ximp)Estimated OOB errors (NRMSE for numeric, PFC for factors)
imp$OOBerrorTrue error if xtrue was provided (for benchmarking only)
imp$errorChoosing a backend
# Legacy behavior using randomForest
imp_rf <- missForest(iris_mis, backend = "randomForest")Explicitly use ranger with limited threads
imp_rg <- missForest(iris_mis, backend = "ranger", num.threads = 2)Parallelization
Two modes are available via parallelize:
"variables": build forests for different variables in parallel (register a foreach backend)."forests": parallelize within a single variable’s forest (ranger threads; or foreach sub-forests for randomForest).
# Not run:
library(doParallel)
registerDoParallel(2)
imp_vars <- missForest(iris_mis, parallelize = "variables", verbose = TRUE)
imp_fors <- missForest(iris_mis, parallelize = "forests", verbose = TRUE, num.threads = 2)
API overview
missForest(xmis, ...)
Core imputation function.
Key arguments:
xmis— data frame/matrix with missing values (columns must benumericorfactor).maxiter— maximum iterations (default10).ntree— trees per forest (default100).mtry— variables tried at each split (defaultsqrt(p)).nodesize— length-2 numeric: minimum node size for c(numeric, factor). Defaultc(5, 1).variablewise— return per-variable OOB error ifTRUE.parallelize—"no","variables", or"forests".num.threads— threads forranger(ignored byrandomForest).backend—"ranger"(default) or"randomForest".xtrue— optional complete data for benchmarking (adds$error).
backend = "ranger":ntree → num.treesnodesize → min.bucket(separately for regression/classification; defaultc(5,1))sampsize(counts) →sample.fraction(fractions; overall or per-class)classwt → class.weightscutoffhandled by fitting probability forests and post-thresholding
Utilities
mixError(ximp, xmis, xtrue)— computes NRMSE (numeric) and PFC (factor) over true missing entries.nrmse(ximp, xmis, xtrue)— NRMSE for continuous-only data.prodNA(x, noNA = 0.1)— injects MCAR missingness into a data frame.varClass(x)— returns"numeric"/"factor"per column.
Tips & best practices
- Convert character columns to factors before calling
missForest. - For wide data, consider
parallelize = "variables". For deep/expensive trees, considerparallelize = "forests". - Set a seed for quasi-reproducible results:
set.seed(123); imp <- missForest(x)
``
- You can lower
ntree during prototyping to speed up iteration.---
Citation
If you use missForest, please cite:
Stekhoven, D. J. & Bühlmann, P. (2012). MissForest—nonparametric missing value imputation for mixed-type data.* Bioinformatics, 28(1), 112–118. https://doi.org/10.1093/bioinformatics/btr597
You can also cite the package:
Contributing
Issues and pull requests are welcome. Please include a minimal reproducible example when reporting bugs. For performance discussions, share small benchmarks and session info.
License
GPL (≥ 2)
Contact
Daniel J. Stekhoven — stekhoven@nexus.ethz.ch
--- Tranlated By Open Ai Tx | Last indexed: 2025-12-08 ---