# library(knitcitations) # bib <- read.bibtex("README.bib") # citep(bib[[1]])

Feature hashing, also called as the hashing trick, is a method to transform features to vector. Without looking the indices up in an associative array, it applies a hash function to the features and uses their hash values as indices directly.

The package **FeatureHashing** implements the method in @DBLP:conf/icml/WeinbergerDLSA09 to transform
a `data.frame`

to sparse matrix. The package provides a formula interface similar to `model.matrix`

in `R`

and `Matrix::sparse.model.matrix`

in the package `Matrix`

. Splitting of concatenated data,
check the help of `test.tag`

for explanation of concatenated data, during the construction of the model matrix.

To install the stable version from Cran, run this command:

install.packages("FeatureHashing")

For up-to-date version, please install from github. Windows user will need to install RTools first.

devtools::install_github('wush978/FeatureHashing')

Feature hashing is useful when the user does not easy to know the dimension of the feature vector. For example, the bag-of-word representation in document classification problem requires scanning entire dataset to know how many words we have, i.e. the dimension of the feature vector.

In general, feature hashing is useful in the following environment:

- Streaming Environment
- Distirbuted Environment

Because it is expensive or impossible to know the real dimension of the feature vector.

The following scripts show how to use the **FeatureHashing** to construct `Matrix::dgCMatrix`

and train a model in other packages which supports `Matrix::dgCMatrix`

as input.

The dataset is a sample from iPinYou dataset which is described in @zhang2014real.

`glmnet`

# The following script assumes that the data.frame # of the training dataset and testing dataset are # assigned to variable `ipinyou.train` and `ipinyou.test` # respectively library(FeatureHashing) # Checking version. stopifnot(packageVersion("FeatureHashing") >= package_version("0.9")) data(ipinyou) f <- ~ IP + Region + City + AdExchange + Domain + URL + AdSlotId + AdSlotWidth + AdSlotHeight + AdSlotVisibility + AdSlotFormat + CreativeID + Adid + split(UserTag, delim = ",") # if the version of FeatureHashing is 0.8, please use the following command: # m.train <- as(hashed.model.matrix(f, ipinyou.train, 2^16, transpose = FALSE), "dgCMatrix") m.train <- hashed.model.matrix(f, ipinyou.train, 2^16) m.test <- hashed.model.matrix(f, ipinyou.test, 2^16) # logistic regression with glmnet library(glmnet) cv.g.lr <- cv.glmnet(m.train, ipinyou.train$IsClick, family = "binomial")#, type.measure = "auc") p.lr <- predict(cv.g.lr, m.test, s="lambda.min") library(pROC) auc(ipinyou.test$IsClick, c(p.lr))

`xgboost`

Following the script above,

# GBDT with xgboost if(require("xgboost")){ cv.g.gdbt <- xgboost(m.train, ipinyou.train$IsClick, max.depth=7, eta=0.1, subsample = 0.7, colsample_bytree = 0.7, nround = 10, objective = "binary:logistic", verbose = ifelse(interactive(), 1, 0)) p.lm <- predict(cv.g.gdbt, m.test) auc(ipinyou.test$IsClick, p.lm) }

The following scripts use an implementation of the FTRL-Proximal for Logistic Regresion, which is published in @DBLP:conf/kdd/McMahanHSYEGNPDGCLWHBK13, to predict the probability (1-step prediction) and update the model simultaneously.

source(system.file("ftprl.R", package = "FeatureHashing")) m.train <- hashed.model.matrix(f, ipinyou.train, 2^16, transpose = TRUE) ftprl <- initialize.ftprl(0.1, 1, 0.1, 0.1, 2^16) ftprl <- update.ftprl(ftprl, m.train, ipinyou.train$IsClick, predict = TRUE) auc(ipinyou.train$IsClick, attr(ftprl, "predict"))

If we use the same algorithm to predict the click through rate of the 3rd season of iPinYou, the overall AUC will be 0.77 which is comparable to the overall AUC of the 3rd season 0.76 reported in @zhang2014real.

- character and factor
- numeric and integer
- array, i.e. concatenated strings such as
`c("a,b", "a,b,c", "a,c", "")`

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