Usage
g_forest(
tbl,
col_x = attr(tbl, "col_x"),
col_ci = attr(tbl, "col_ci"),
vline = 1,
forest_header = attr(tbl, "forest_header"),
xlim = c(0.1, 10),
logx = TRUE,
x_at = c(0.1, 1, 10),
width_row_names = NULL,
width_columns = NULL,
width_forest = grid::unit(1, "null"),
col_symbol_size = attr(tbl, "col_symbol_size"),
col = getOption("ggplot2.discrete.colour")[1],
draw = TRUE,
newpage = TRUE
)
Arguments
- tbl
(
rtable
)- col_x
(
integer
)
column index with estimator. By default tries to get this fromtbl
attributecol_x
, otherwise needs to be manually specified.- col_ci
(
integer
)
column index with confidence intervals. By default tries to get this fromtbl
attributecol_ci
, otherwise needs to be manually specified.- vline
(
number
)
x coordinate for vertical line, ifNULL
then the line is omitted.- forest_header
(
character
, length 2)
text displayed to the left and right ofvline
, respectively. Ifvline = NULL
thenforest_header
needs to beNULL
too. By default tries to get this fromtbl
attributeforest_header
.- xlim
(
numeric
)
limits for x axis.- logx
(
flag
)
show the x-values on logarithm scale.- x_at
(
numeric
)
x-tick locations, ifNULL
they get automatically chosen.- width_row_names
(
unit
)
width for row names. IfNULL
the widths get automatically calculated. Seegrid::unit()
.- width_columns
(
unit
)
widths for the table columns. IfNULL
the widths get automatically calculated. Seegrid::unit()
.- width_forest
(
unit
)
width for the forest column. IfNULL
the widths get automatically calculated. Seegrid::unit()
.- col_symbol_size
(
integer
)
column index fromtbl
containing data to be used to determine relative size for estimator plot symbol. Typically, the symbol size is proportional to the sample size used to calculate the estimator. IfNULL
, the same symbol size is used for all subgroups. By default tries to get this fromtbl
attributecol_symbol_size
, otherwise needs to be manually specified.- col
(
character
)
color(s).- draw
(
flag
)
whether the plot should be drawn.- newpage
(
flag
)
whether the plot should be drawn on a new page. Only considered ifdraw = TRUE
is used.
Details
Create a forest plot from any rtables::rtable()
object that has a
column with a single value and a column with 2 values.
Examples
# \donttest{
library(dplyr)
library(forcats)
library(nestcolor)
adrs <- tern_ex_adrs
n_records <- 20
adrs_labels <- formatters::var_labels(adrs, fill = TRUE)
adrs <- adrs %>%
filter(PARAMCD == "BESRSPI") %>%
filter(ARM %in% c("A: Drug X", "B: Placebo")) %>%
slice(seq_len(n_records)) %>%
droplevels() %>%
mutate(
# Reorder levels of factor to make the placebo group the reference arm.
ARM = fct_relevel(ARM, "B: Placebo"),
rsp = AVALC == "CR"
)
formatters::var_labels(adrs) <- c(adrs_labels, "Response")
df <- extract_rsp_subgroups(
variables = list(rsp = "rsp", arm = "ARM", subgroups = c("SEX", "STRATA2")),
data = adrs
)
# Full commonly used response table.
tbl <- basic_table() %>%
tabulate_rsp_subgroups(df)
p <- g_forest(tbl)
draw_grob(p)
# Odds ratio only table.
tbl_or <- basic_table() %>%
tabulate_rsp_subgroups(df, vars = c("n_tot", "or", "ci"))
tbl_or
#> Baseline Risk Factors
#> Total n Odds Ratio 95% CI
#> ————————————————————————————————————————————————————————————————
#> All Patients 20 0.76 (0.10, 5.96)
#> Sex
#> F 11 >999.99 (0.00, >999.99)
#> M 9 0.22 (0.01, 3.98)
#> Stratification Factor 2
#> S1 10 1.00 (0.05, 22.18)
#> S2 10 0.67 (0.04, 11.29)
p <- g_forest(
tbl_or,
forest_header = c("Comparison\nBetter", "Treatment\nBetter")
)
draw_grob(p)
# Survival forest plot example.
adtte <- tern_ex_adtte
# Save variable labels before data processing steps.
adtte_labels <- formatters::var_labels(adtte, fill = TRUE)
adtte_f <- adtte %>%
filter(
PARAMCD == "OS",
ARM %in% c("B: Placebo", "A: Drug X"),
SEX %in% c("M", "F")
) %>%
mutate(
# Reorder levels of ARM to display reference arm before treatment arm.
ARM = droplevels(fct_relevel(ARM, "B: Placebo")),
SEX = droplevels(SEX),
AVALU = as.character(AVALU),
is_event = CNSR == 0
)
labels <- list(
"ARM" = adtte_labels["ARM"],
"SEX" = adtte_labels["SEX"],
"AVALU" = adtte_labels["AVALU"],
"is_event" = "Event Flag"
)
formatters::var_labels(adtte_f)[names(labels)] <- as.character(labels)
df <- extract_survival_subgroups(
variables = list(
tte = "AVAL",
is_event = "is_event",
arm = "ARM", subgroups = c("SEX", "BMRKR2")
),
data = adtte_f
)
table_hr <- basic_table() %>%
tabulate_survival_subgroups(df, time_unit = adtte_f$AVALU[1])
g_forest(table_hr)
# Works with any `rtable`.
tbl <- rtable(
header = c("E", "CI", "N"),
rrow("", 1, c(.8, 1.2), 200),
rrow("", 1.2, c(1.1, 1.4), 50)
)
g_forest(
tbl = tbl,
col_x = 1,
col_ci = 2,
xlim = c(0.5, 2),
x_at = c(0.5, 1, 2),
col_symbol_size = 3
)
tbl <- rtable(
header = rheader(
rrow("", rcell("A", colspan = 2)),
rrow("", "c1", "c2")
),
rrow("row 1", 1, c(.8, 1.2)),
rrow("row 2", 1.2, c(1.1, 1.4))
)
g_forest(
tbl = tbl,
col_x = 1,
col_ci = 2,
xlim = c(0.5, 2),
x_at = c(0.5, 1, 2),
vline = 1,
forest_header = c("Hello", "World")
)
# }