`library(splithalfr)`

This vignette describes a sum score of answers on questions from the 23-item Rutgers Alcohol Problem Inventory (RAPI) (White & Labouvie, 1989);

Load the included RAPI dataset and inspect its documentation.

```
data("ds_rapi", package = "splithalfr")
?ds_rapi
```

The RAPI dataset is in wide format (i.e. one row per participant with each observation in a separate column). However, the `splithalfr`

requires long format (i.e. one row per observation). Below we reshape the RAPI dataset to long format.

```
ds_rapi <- reshape(
ds_rapi,
varying = list(paste("V", 1 : 23, sep = "")),
idvar = "twnr",
direction = "long",
timevar = "item",
v.names = "score"
)
```

The columns used in this example are:

`twnr`

, which identifies participants`item`

, which identifies items`score`

, which contains the score of participant i on item j

The scoring function calculates the score of a single participant by summing their scores on each item.

```
fn_score <- function (ds) {
return (sum(ds$score))
}
```

Let’s calculate the RAPI score for the participant with twnr 396. NB - This score has also been calculated manually via Excel in the splithalfr repository.

`fn_score(subset(ds_rapi, twnr == 396))`

To calculate the RAPI score for each participant, we will use R’s native `by`

function and convert the result to a data frame.

```
scores <- by(
ds_rapi,
ds_rapi$twnr,
fn_score
)
data.frame(
twnr = names(scores),
score = as.vector(scores)
)
```

To calculate split-half scores for each participant, use the function `by_split`

. The first three arguments of this function are the same as for `by`

. An additional set of arguments allow you to specify how to split the data and how often. In this vignette we will calculate scores of 1000 bootstrapped splits. Since each participant received the same unique sequence of items, we enabled `match_participants`

. See the vignette on splitting methods for more ways to split the data.

The `by_split`

function returns a data frame with the following columns:

`participant`

, which identifies participants`replication`

, which counts replications`score_1`

and`score_2`

, which are the scores calculated for each of the split datasets

*Calculating the split scores may take a while. By default, by_split uses all available CPU cores, but no progress bar is displayed. Setting ncores = 1 will display a progress bar, but processing will be slower.*

```
split_scores <- by_split(
ds_rapi,
ds_rapi$twnr,
fn_score,
replications = 1000,
match_participants = TRUE
)
```

Next, the output of `by_split`

can be analyzed in order to estimate reliability. By default, functions are provided that calculate Spearman-Brown adjusted Pearson correlations (`spearman_brown`

), Flanagan-Rulon (`flanagan_rulon`

), Angoff-Feldt (`angoff_feldt`

), and Intraclass Correlation (`short_icc`

) coefficients. Each of these coefficient functions can be used with `split_coef`

to calculate the corresponding coefficients per split, which can then be plotted or averaged via a simple `mean`

. A bias-corrected and accelerated bootstrap confidence interval can be calculated via `split_ci`

.

```
# Spearman-Brown adjusted Pearson correlations per replication
coefs <- split_coefs(split_scores, spearman_brown)
# Distribution of coefficients
hist(coefs)
# Mean of coefficients
mean(coefs)
# Confidence interval of coefficients
split_ci(split_scores, coefs)
```