Using scatterplot matrix
teal application to use scatter plot matrix with
various datasets types
This vignette will guide you through the four parts to create a
teal application using various types of datasets using the
scatter plot matrix module tm_g_scatterplotmatrix():
- Load libraries
- Create data sets
- Create an
appvariable - Run the app
1 - Load libraries
2 - Create data sets
Inside this app 4 datasets will be used
ADSLA wide data set with subject dataADRSA long data set with response data for subjects at different time points of the studyADTTEA long data set with time to event dataADLBA long data set with lab measurements for each subject
data <- teal_data()
data <- within(data, {
ADSL <- teal.modules.general::rADSL %>%
mutate(TRTDUR = round(as.numeric(TRTEDTM - TRTSDTM), 1))
ADRS <- teal.modules.general::rADRS
ADTTE <- teal.modules.general::rADTTE
ADLB <- teal.modules.general::rADLB %>%
mutate(CHGC = as.factor(case_when(
CHG < 1 ~ "N",
CHG > 1 ~ "P",
TRUE ~ "-"
)))
})
datanames <- c("ADSL", "ADRS", "ADTTE", "ADLB")
datanames(data) <- datanames
join_keys(data) <- default_cdisc_join_keys[datanames]3 - Create an app variable
This is the most important section. We will use the
teal::init() function to create an app. The data will be
handed over using teal.data::teal_data(). The app itself
will be constructed by multiple calls of
tm_g_scatterplotmatrix() using different combinations of
data sets.
# configuration for the single wide dataset
mod1 <- tm_g_scatterplotmatrix(
label = "Single wide dataset",
variables = data_extract_spec(
dataname = "ADSL",
select = select_spec(
label = "Select variables:",
choices = variable_choices(data[["ADSL"]]),
selected = c("AGE", "RACE", "SEX", "BMRKR1", "BMRKR2"),
multiple = TRUE,
fixed = FALSE,
ordered = TRUE
)
)
)
# configuration for the one long datasets
mod2 <- tm_g_scatterplotmatrix(
"One long dataset",
variables = data_extract_spec(
dataname = "ADTTE",
select = select_spec(
choices = variable_choices(data[["ADTTE"]], c("AVAL", "BMRKR1", "BMRKR2")),
selected = c("AVAL", "BMRKR1", "BMRKR2"),
multiple = TRUE,
fixed = FALSE,
ordered = TRUE,
label = "Select variables:"
)
)
)
# configuration for the two long datasets
mod3 <- tm_g_scatterplotmatrix(
label = "Two long datasets",
variables = list(
data_extract_spec(
dataname = "ADRS",
select = select_spec(
label = "Select variables:",
choices = variable_choices(data[["ADRS"]]),
selected = c("AVAL", "AVALC"),
multiple = TRUE,
fixed = FALSE,
ordered = TRUE,
),
filter = filter_spec(
label = "Select endpoints:",
vars = c("PARAMCD", "AVISIT"),
choices = value_choices(data[["ADRS"]], c("PARAMCD", "AVISIT"), c("PARAM", "AVISIT")),
selected = "OVRINV - SCREENING",
multiple = FALSE
)
),
data_extract_spec(
dataname = "ADTTE",
select = select_spec(
label = "Select variables:",
choices = variable_choices(data[["ADTTE"]]),
selected = c("AVAL", "CNSR"),
multiple = TRUE,
fixed = FALSE,
ordered = TRUE
),
filter = filter_spec(
label = "Select parameters:",
vars = "PARAMCD",
choices = value_choices(data[["ADTTE"]], "PARAMCD", "PARAM"),
selected = "OS",
multiple = TRUE
)
)
)
)
# initialize the app
app <- init(
data = data,
modules = modules(
modules(
label = "Scatterplot matrix",
mod1,
mod2,
mod3
)
)
)4 - Run the app
A simple shiny::shinyApp() call will let you run the
app. Note that app is only displayed when running this code inside an
R session.
