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CPC: Implementation of Cluster-Polarization Coefficient

R-CMD-check CRAN status Downloads Lifecycle: stable License: CC0

CPC website

Implements cluster-polarization coefficient for measuring distributional polarization in single or multiple dimensions. Contains support for hierarchical clustering, k-means, partitioning around medoids, density-based spatial clustering with noise, and manually imposed cluster membership. Calculates CPC and adjusted CPC.

Installation

There are two ways to easily install this package in R. To install the stable version released to CRAN, install as normal:

install.packages("CPC")
library(CPC)

To install the most recent development version, first ensure you have the latest version of devtools installed:

install.packages("devtools")
library(devtools)

Then, run the following code:

devtools::install_github("imehlhaff/CPC")

Citation

To cite CPC in publications and working papers, please use:

Mehlhaff, Isaac D. “A Group-Based Approach to Measuring Polarization,” American Political Science Review (forthcoming).

For BibTeX users:

@article{Mehlhaffforthcoming,
  title = {A {{Group-Based Approach}} to {{Measuring Polarization}}},
  author = {Mehlhaff, Isaac D.},
  year = {forthcoming},
  journaltitle = {American Political Science Review},
  url = {https://doi.org/10.1017/S0003055423001041}
}

Usage

Most users of this package will be primarily interested in using it to easily calculate the CPC for a given distribution of numeric data. For example, let us take the bivariate, bimodal distribution generated by the following:

data <- matrix(c(rnorm(50, 0, 1), rnorm(50, 5, 1)), ncol = 2, byrow = TRUE)

Algorithmic Cluster Assignment

Given our data generated above, the following call to CPC() uses k-means clustering to assign cluster membership to each observation, calculates the CPC, and returns a numeric vector of length 1:

CPC(data = data, k = 2, type = "kmeans")

Further arguments to fine-tune the specified clustering function, such as which particular algorithm to use, can be passed directly to CPC(). For example, the following call specifies the MacQueen algorithm instead of the default Hartigan-Wong algorithm:

CPC(data = data, k = 2, type = "kmeans", algorithm = "MacQueen")

In particular, if type = "kmeans", the algorithm is only guaranteed to converge to local optima, so using a large number of random starts is recommended. This can be specified with the nstart argument to kmeans(), again passed directly to CPC().

If we wanted to calculate the adjusted CPC instead, we need only add the optional adjust argument, which defaults to FALSE:

CPC(data = data, k = 2, type = "kmeans", adjust = TRUE)

For more advanced users who wish to evaluate the output of the specified clustering function, the optional argument model can be set to TRUE:

CPC(data = data, k = 2, type = "kmeans", model = TRUE)

In this case, CPC() returns a list containing the output of the specified clustering function, all sums of squares calculations, the CPC and the adjusted CPC. Because both the CPC and adjusted CPC are automatically calculated and returned as list elements, adjust need not be specified when model = TRUE.

Manual Cluster Assignment

In the case that pre-specifying cluster membership is theoretically justified or empirically desirable, the CPC can be calculated with user-imposed clusters. Cluster membership should be identified for each observation included in the calculation, and these identifications should be included in their own column in the matrix or data frame. To update our example data from above:

clusters <- matrix(c(rep(1, 25), rep(2, 25)), ncol = 1)
data <- cbind(data, clusters)

CPC() can now be called, with type = "manual" and calls to the optional arguments cols and clusters denoting the columns containing data and cluster memberships, respectively:

CPC(data = data, type = "manual", cols = 1:2, clusters = 3)

These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.