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[Stable]

Counting the number of patients and summing analysis value (i.e exposure values) across all patients when a column table layout is required.

Usage

analyze_patients_exposure_in_cols(
  lyt,
  var = NULL,
  ex_var = "AVAL",
  id = "USUBJID",
  add_total_level = FALSE,
  custom_label = NULL,
  col_split = TRUE,
  na_str = default_na_str(),
  .stats = c("n_patients", "sum_exposure"),
  .labels = c(n_patients = "Patients", sum_exposure = "Person time"),
  .indent_mods = 0L,
  ...
)

summarize_patients_exposure_in_cols(
  lyt,
  var,
  ex_var = "AVAL",
  id = "USUBJID",
  add_total_level = FALSE,
  custom_label = NULL,
  col_split = TRUE,
  na_str = default_na_str(),
  ...,
  .stats = c("n_patients", "sum_exposure"),
  .labels = c(n_patients = "Patients", sum_exposure = "Person time"),
  .indent_mods = NULL
)

s_count_patients_sum_exposure(
  df,
  ex_var = "AVAL",
  id = "USUBJID",
  labelstr = "",
  .stats = c("n_patients", "sum_exposure"),
  .N_col,
  custom_label = NULL
)

a_count_patients_sum_exposure(
  df,
  var = NULL,
  ex_var = "AVAL",
  id = "USUBJID",
  add_total_level = FALSE,
  custom_label = NULL,
  labelstr = "",
  .N_col,
  .stats,
  .formats = list(n_patients = "xx (xx.x%)", sum_exposure = "xx")
)

Arguments

lyt

(layout)
input layout where analyses will be added to.

var

(string)
single variable name that is passed by rtables when requested by a statistics function.

ex_var

(character)
name of the variable within df containing exposure values.

id

(string)
subject variable name.

add_total_level

(flag)
adds a "total" level after the others which includes all the levels that constitute the split. A custom label can be set for this level via the custom_label argument.

custom_label

(string or NULL)
if provided and labelstr is empty then this will be used as label.

col_split

(flag)
whether the columns should be split. Set to FALSE when the required column split has been done already earlier in the layout pipe.

na_str

(string)
string used to replace all NA or empty values in the output.

.stats

(character)
statistics to select for the table. Run get_stats("analyze_patients_exposure_in_cols") to see available statistics for this function.

.labels

(named character)
labels for the statistics (without indent).

.indent_mods

(named integer)
indent modifiers for the labels. Defaults to 0, which corresponds to the unmodified default behavior. Can be negative.

...

additional arguments for the lower level functions.

df

(data.frame)
data set containing all analysis variables.

labelstr

(character)
label of the level of the parent split currently being summarized (must be present as second argument in Content Row Functions). See rtables::summarize_row_groups() for more information.

.N_col

(integer)
column-wise N (column count) for the full column being analyzed that is typically passed by rtables.

.formats

(named character or list)
formats for the statistics. See Details in analyze_vars for more information on the "auto" setting.

Value

  • analyze_patients_exposure_in_cols() returns a layout object suitable for passing to further layouting functions, or to rtables::build_table(). Adding this function to an rtable layout will add formatted data rows, with the statistics from s_count_patients_sum_exposure() arranged in columns, to the table layout.

  • summarize_patients_exposure_in_cols() returns a layout object suitable for passing to further layouting functions, or to rtables::build_table(). Adding this function to an rtable layout will add formatted content rows, with the statistics from s_count_patients_sum_exposure() arranged in columns, to the table layout.

  • s_count_patients_sum_exposure() returns a named list with the statistics:

    • n_patients: Number of unique patients in df.

    • sum_exposure: Sum of ex_var across all patients in df.

Functions

Note

As opposed to summarize_patients_exposure_in_cols() which generates content rows, analyze_patients_exposure_in_cols() generates data rows which will not be repeated on multiple pages when pagination is used.

Examples

set.seed(1)
df <- data.frame(
  USUBJID = c(paste("id", seq(1, 12), sep = "")),
  ARMCD = c(rep("ARM A", 6), rep("ARM B", 6)),
  SEX = c(rep("Female", 6), rep("Male", 6)),
  AVAL = as.numeric(sample(seq(1, 20), 12)),
  stringsAsFactors = TRUE
)
adsl <- data.frame(
  USUBJID = c(paste("id", seq(1, 12), sep = "")),
  ARMCD = c(rep("ARM A", 2), rep("ARM B", 2)),
  SEX = c(rep("Female", 2), rep("Male", 2)),
  stringsAsFactors = TRUE
)

lyt <- basic_table() %>%
  split_cols_by("ARMCD", split_fun = add_overall_level("Total", first = FALSE)) %>%
  summarize_patients_exposure_in_cols(var = "AVAL", col_split = TRUE) %>%
  analyze_patients_exposure_in_cols(var = "SEX", col_split = FALSE)
result <- build_table(lyt, df = df, alt_counts_df = adsl)
result
#>                                               ARM A                      ARM B                       Total          
#>                                       Patients    Person time    Patients    Person time    Patients     Person time
#> ————————————————————————————————————————————————————————————————————————————————————————————————————————————————————
#> Total patients numbers/person time   6 (100.0%)       46        6 (100.0%)       68        12 (100.0%)       114    
#>   Female                             6 (100.0%)       46         0 (0.0%)         0         6 (50.0%)        46     
#>   Male                                0 (0.0%)         0        6 (100.0%)       68         6 (50.0%)        68     

lyt2 <- basic_table() %>%
  split_cols_by("ARMCD", split_fun = add_overall_level("Total", first = FALSE)) %>%
  summarize_patients_exposure_in_cols(
    var = "AVAL", col_split = TRUE,
    .stats = "n_patients", custom_label = "some custom label"
  ) %>%
  analyze_patients_exposure_in_cols(var = "SEX", col_split = FALSE, ex_var = "AVAL")
result2 <- build_table(lyt2, df = df, alt_counts_df = adsl)
result2
#>                       ARM A        ARM B         Total   
#>                      Patients     Patients     Patients  
#> —————————————————————————————————————————————————————————
#> some custom label   6 (100.0%)   6 (100.0%)   12 (100.0%)
#>   Female            6 (100.0%)    0 (0.0%)     6 (50.0%) 
#>   Male               0 (0.0%)    6 (100.0%)    6 (50.0%) 

lyt3 <- basic_table() %>%
  analyze_patients_exposure_in_cols(var = "SEX", col_split = TRUE, ex_var = "AVAL")
result3 <- build_table(lyt3, df = df, alt_counts_df = adsl)
result3
#>          Patients    Person time
#> ————————————————————————————————
#> Female   6 (50.0%)       46     
#> Male     6 (50.0%)       68     

# Adding total levels and custom label
lyt4 <- basic_table(
  show_colcounts = TRUE
) %>%
  analyze_patients_exposure_in_cols(
    var = "ARMCD",
    col_split = TRUE,
    add_total_level = TRUE,
    custom_label = "TOTAL"
  ) %>%
  append_topleft(c("", "Sex"))

result4 <- build_table(lyt4, df = df, alt_counts_df = adsl)
result4
#>          Patients     Person time
#> Sex       (N=12)        (N=12)   
#> —————————————————————————————————
#> ARM A    6 (50.0%)        46     
#> ARM B    6 (50.0%)        68     
#> TOTAL   12 (100.0%)       114    

lyt5 <- basic_table() %>%
  summarize_patients_exposure_in_cols(var = "AVAL", col_split = TRUE)

result5 <- build_table(lyt5, df = df, alt_counts_df = adsl)
result5
#>                                       Patients     Person time
#> ——————————————————————————————————————————————————————————————
#> Total patients numbers/person time   12 (100.0%)       114    

lyt6 <- basic_table() %>%
  summarize_patients_exposure_in_cols(var = "AVAL", col_split = TRUE, .stats = "sum_exposure")

result6 <- build_table(lyt6, df = df, alt_counts_df = adsl)
result6
#>                                      Person time
#> ————————————————————————————————————————————————
#> Total patients numbers/person time       114    

a_count_patients_sum_exposure(
  df = df,
  var = "SEX",
  .N_col = nrow(df),
  .stats = "n_patients"
)
#> RowsVerticalSection (in_rows) object print method:
#> ----------------------------
#>   row_name formatted_cell indent_mod row_label
#> 1   Female      6 (50.0%)          0    Female
#> 2     Male      6 (50.0%)          0      Male