Skip to content

jluchman/domir

Repository files navigation

Tools to Support Relative Importance Analysis

domir

Stable version downloads

Overview

The domir package supports determining the relative importance of inputs (i.e., independent variables, predictors, or features referred to as names in the package) in a user’s statistical or machine learning model.

The intention of this package is to provide a flexible user interface to Dominance Analysis—a relatively assumption-free methodology for comparing the predictive value, usefulness, or importance associated with of model inputs/names.

Dominance analysis resolves the indeterminancy of ascribing the value returned by a predictive modeling function to inputs/names when it is not possible to do so analytically. The most common use case for the application of dominance analysis is in comparing inputs/names in terms of their contribution to a predictive model’s fit statistic or metric.

Installation

To install the most recent version of domir from CRAN use:

install.packages("domir")

domir is also used as the computational engine underlying the dominance_analysis() function for the parameters package in the easystats framework/collection.

What domir Does

domir computes three different sets of results based on a set of inputs/names and the values returned from a function like this linear regression model.

lm(mpg ~ am + vs + cyl, data = mtcars)

Using the variance explained $R^2$ as fit statistic as implemented by lm‘s summary method as the returned value, domir can implement a ’classic’ dominance analysis1 as:

lm_wrapper <-       
  function(formula, data) {
    lm(formula, data = data) |> 
      summary() |>
      _[["r.squared"]]
  }

domir(mpg ~ am + vs + cyl, lm_wrapper, data = mtcars)
## Overall Value:      0.7619773 
## 
## General Dominance Values:
##     General Dominance Standardized Ranks
## am          0.1774892    0.2329324     3
## vs          0.2027032    0.2660226     2
## cyl         0.3817849    0.5010450     1
## 
## Conditional Dominance Values:
##     Include At: 1 Include At: 2 Include At: 3
## am      0.3597989     0.1389842   0.033684441
## vs      0.4409477     0.1641982   0.002963748
## cyl     0.7261800     0.3432799   0.075894823
## 
## Complete Dominance Proportions:
##       > am > vs > cyl
## am >    NA  0.5     0
## vs >   0.5   NA     0
## cyl >  1.0  1.0    NA

domir requires the set of inputs/names, submitted as a formula or a specialized formula_list object, and a function that accepts the input/names and returns a single, numeric value.

Note the use of a wrapper function, lm_wrapper, that accepts a formula and returns the $R^2$. These ‘analysis pipeline’ wrapper functions are necessary for the effective use of domir and the ability to use them to adapt predictive models to the computational engine used by domir makes this package able to apply to almost any model.

domir by default reports on complete dominance proportions, conditional dominance values, and general dominance values.

Complete dominance proportions are the proportion of subsets of inputs/names where the name in the row obtains a bigger value than the name in the column.

Conditional dominance values are the average value associated with the name when included sequentially at each possible position in the sequence of name slots.

General dominance values are the average value associated with the name across all possible ways of including the name in the sequence of all names. These values are also equivalent to the Shapley Value for each name.

Comparison with Existing Relative Importance Packages

Several other relative importance packages can produce results identical to domir under specific circumstances. I will focus on discussing two of the most relevant comparison packages below.

The calc.relimpo function in the relaimpo package with type = "lmg" produces the general dominance values for lm as in the example below:

relaimpo::calc.relimp(mpg ~ am + vs + cyl, data = mtcars, type = "lmg")
## Response variable: mpg 
## Total response variance: 36.3241 
## Analysis based on 32 observations 
## 
## 3 Regressors: 
## am vs cyl 
## Proportion of variance explained by model: 76.2%
## Metrics are not normalized (rela=FALSE). 
## 
## Relative importance metrics: 
## 
##           lmg
## am  0.1774892
## vs  0.2027032
## cyl 0.3817849
## 
## Average coefficients for different model sizes: 
## 
##            1X       2Xs       3Xs
## am   7.244939  4.316851  3.026480
## vs   7.940476  2.995142  1.294614
## cyl -2.875790 -2.795816 -2.137632

relaimpo is for importance analysis with linear regression with variance explained $R^2$ as a fit statistic and is optimized to analyze that model-fit statistic pairing across multiple ways of submitting data (i.e., correlation matrices, fitted lm object, a data.frame).

The dominanceAnalysis function in dominanceAnalysis produces many of the same statistics as domir as in the example below:

dominanceanalysis::dominanceAnalysis(lm(mpg ~ am + vs + cyl, data = mtcars))
## 
## Dominance analysis
## Predictors: am, vs, cyl 
## Fit-indices: r2 
## 
## * Fit index:  r2 
##     complete conditional general
## am                              
## vs                            am
## cyl    am,vs       am,vs   am,vs
## 
## Average contribution:
##   cyl    vs    am 
## 0.382 0.203 0.177

dominanceAnalysis is for the relative importance of specific model-fit statistic pairs as it is implemented using S3 methods focused on model types to implement similar to how parameters::dominance_analysis works but using a custom implementation not dependent on the insight package to parse model components and implement the methodology.

Further Examples

Further examples of domirs functionality will be populated on the domir wiki.

Footnotes

  1. see this vignette for a conceptual discussion of dominance analysis