| step_texthash {textrecipes} | R Documentation |
Feature Hashing of Tokens
Description
step_texthash() creates a specification of a recipe step that will
convert a token variable into multiple numeric variables
using the hashing trick.
Usage
step_texthash(
recipe,
...,
role = "predictor",
trained = FALSE,
columns = NULL,
signed = TRUE,
num_terms = 1024L,
prefix = "texthash",
keep_original_cols = FALSE,
skip = FALSE,
id = rand_id("texthash")
)
Arguments
recipe |
A recipe object. The step will be added to the sequence of operations for this recipe. |
... |
One or more selector functions to choose which
variables are affected by the step. See |
role |
For model terms created by this step, what analysis role should they be assigned?. By default, the function assumes that the new columns created by the original variables will be used as predictors in a model. |
trained |
A logical to indicate if the quantities for preprocessing have been estimated. |
columns |
A character string of variable names that will
be populated (eventually) by the |
signed |
A logical, indicating whether to use a signed hash-function to reduce collisions when hashing. Defaults to TRUE. |
num_terms |
An integer, the number of variables to output. Defaults to 1024. |
prefix |
A character string that will be the prefix to the resulting new variables. See notes below. |
keep_original_cols |
A logical to keep the original variables in the
output. Defaults to |
skip |
A logical. Should the step be skipped when the
recipe is baked by |
id |
A character string that is unique to this step to identify it. |
Details
Feature hashing, or the hashing trick, is a transformation of a text variable into a new set of numerical variables. This is done by applying a hashing function over the tokens and using the hash values as feature indices. This allows for a low memory representation of the text. This implementation is done using the MurmurHash3 method.
The argument num_terms controls the number of indices that the hashing
function will map to. This is the tuning parameter for this transformation.
Since the hashing function can map two different tokens to the same index,
will a higher value of num_terms result in a lower chance of collision.
The new components will have names that begin with prefix, then
the name of the variable, followed by the tokens all separated by
-. The variable names are padded with zeros. For example if
prefix = "hash", and if num_terms < 10, their names will be
hash1 - hash9. If num_terms = 101, their names will be
hash001 - hash101.
Value
An updated version of recipe with the new step added
to the sequence of existing steps (if any).
Tidying
When you tidy() this step, a tibble with columns terms
(the selectors or variables selected) and value (number of terms).
Tuning Parameters
This step has 2 tuning parameters:
-
signed: Signed Hash Value (type: logical, default: TRUE) -
num_terms: # Hash Features (type: integer, default: 1024)
Case weights
The underlying operation does not allow for case weights.
References
Kilian Weinberger; Anirban Dasgupta; John Langford; Alex Smola; Josh Attenberg (2009).
See Also
step_tokenize() to turn characters into tokens
step_text_normalization() to perform text normalization.
Other Steps for Numeric Variables From Tokens:
step_lda(),
step_tfidf(),
step_tf(),
step_word_embeddings()
Examples
library(recipes)
library(modeldata)
data(tate_text)
tate_rec <- recipe(~., data = tate_text) %>%
step_tokenize(medium) %>%
step_tokenfilter(medium, max_tokens = 10) %>%
step_texthash(medium)
tate_obj <- tate_rec %>%
prep()
bake(tate_obj, tate_text)
tidy(tate_rec, number = 3)
tidy(tate_obj, number = 3)