draw_discrete: Draw discrete variables including binary, binomial count, poisson count, ordered, and categorical

Description

Drawing discrete data based on probabilities or latent traits is a common task that can be cumbersome. Each function in our discrete drawing set creates a different type of discrete data: draw_binary creates binary 0/1 data, draw_binomial creates binomial data (repeated trial binary data), draw_categorical creates categorical data, draw_ordered transforms latent data into observed ordered categories, draw_count creates count data (poisson-distributed). draw_likert is an alias to draw_ordered that pre-specifies break labels and offers default breaks appropriate for a likert survey question.

Usage

draw_binomial(
  prob = link(latent),
  trials = 1,
  N = length(prob),
  latent = NULL,
  link = "identity",
  quantile_y = NULL
)
draw_categorical(
  prob = link(latent),
  N = NULL,
  latent = NULL,
  link = "identity",
  category_labels = NULL
)
draw_ordered(
  x = link(latent),
  breaks = c(-1, 0, 1),
  break_labels = NULL,
  N = length(x),
  latent = NULL,
  strict = FALSE,
  link = "identity"
)
draw_count(
  mean = link(latent),
  N = length(mean),
  latent = NULL,
  link = "identity",
  quantile_y = NULL
)
draw_binary(
  prob = link(latent),
  N = length(prob),
  link = "identity",
  latent = NULL,
  quantile_y = NULL
)
draw_likert(
  x,
  type = 7,
  breaks = NULL,
  N = length(x),
  latent = NULL,
  link = "identity",
  strict = !is.null(breaks)
)
draw_quantile(type, N)

Arguments

prob

A number or vector of numbers representing the probability for binary or binomial outcomes; or a number, vector, or matrix of numbers representing probabilities for categorical outcomes. If you supply a link function, these underlying probabilities will be transformed.

trials

for draw_binomial, the number of trials for each observation

number of units to draw. Defaults to the length of the vector of probabilities or latent data you provided.

latent

If the user provides a link argument other than identity, they should provide the variable latent rather than prob or mean

link

link function between the latent variable and the probability of a positive outcome, e.g. "logit", "probit", or "identity". For the "identity" link, the latent variable must be a probability.

quantile_y

A vector of quantiles; if provided, rather than drawing stochastically from the distribution of interest, data will be drawn at exactly those quantiles.

category_labels

vector of labels for the categories produced by draw_categorical. If provided, must be equal to the number of categories provided in the prob argument.

for draw_ordered or draw_likert, the latent data for each observation.

breaks

vector of breaks to cut a latent outcome into ordered categories with draw_ordered or draw_likert

break_labels

vector of labels for the breaks to cut a latent outcome into ordered categories with draw_ordered. (Optional)

strict

Logical indicating whether values outside the provided breaks should be coded as NA. Defaults to FALSE, in which case effectively additional breaks are added between -Inf and the lowest break and between the highest break and Inf.

mean

for draw_count, the mean number of count units for each observation

type

Type of Likert scale data for draw_likert. Valid options are 4, 5, and 7. Type corresponds to the number of categories in the Likert scale.

Value

A vector of data in accordance with the specification; generally numeric but for some functions, including draw_ordered, may be factor if break labels are provided.

Details

For variables with intra-cluster correlations, see draw_binary_icc and draw_normal_icc

Examples

Run this code

# NOT RUN {
# Drawing binary values (success or failure, treatment assignment)
fabricate(N = 3,
   p = c(0, .5, 1),
   binary = draw_binary(prob = p))

# Drawing binary values with probit link (transforming continuous data
# into a probability range).
fabricate(N = 3,
   x = 10 * rnorm(N),
   binary = draw_binary(latent = x, link = "probit"))

# Repeated trials: `draw_binomial`
fabricate(N = 3,
   p = c(0, .5, 1),
   binomial = draw_binomial(prob = p, trials = 10))

# Ordered data: transforming latent data into observed, ordinal data.
# useful for survey responses.
fabricate(N = 3,
   x = 5 * rnorm(N),
   ordered = draw_ordered(x = x,
                          breaks = c(-Inf, -1, 1, Inf)))

# Providing break labels for latent data.
fabricate(N = 3,
   x = 5 * rnorm(N),
   ordered = draw_ordered(x = x,
                          breaks = c(-Inf, -1, 1, Inf),
                          break_labels = c("Not at all concerned",
                                           "Somewhat concerned",
                                           "Very concerned")))

# Likert data: often used for survey data
fabricate(N = 10,
          support_free_college = draw_likert(x = rnorm(N),
                                             type = 5))

# Count data: useful for rates of occurrences over time.
fabricate(N = 5,
   x = c(0, 5, 25, 50, 100),
   theft_rate = draw_count(mean=x))

# Categorical data: useful for demographic data.
fabricate(N = 6, p1 = runif(N), p2 = runif(N), p3 = runif(N),
          cat = draw_categorical(cbind(p1, p2, p3)))

# }

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