`survfit`

objectsA plot of survival curves is produced, one curve for each strata.
The `log=T`

option does extra work to avoid log(0), and to try to create a
pleasing result. If there are zeros, they are plotted by default at
0.8 times the smallest non-zero value on the curve(s).

Curves are plotted in the same order as they are listed by `print`

(which gives a 1 line summary of each).
This will be the order in which `col`

, `lty`

, etc are used.

```
# S3 method for survfit
plot(x, conf.int=, mark.time=FALSE,
pch=3, col=1, lty=1, lwd=1, cex=1, log=FALSE, xscale=1, yscale=1,
xlim, ylim, xmax, fun,
xlab="", ylab="", xaxs="r", conf.times, conf.cap=.005,
conf.offset=.012,
conf.type = c("log", "log-log", "plain", "logit", "arcsin"),
mark, noplot="(s0)", cumhaz=FALSE,
firstx, ymin, …)
```

x

an object of class `survfit`

, usually returned by the
`survfit`

function.

conf.int

determines whether pointwise confidence intervals will be plotted. The default is to do so if there is only 1 curve, i.e., no strata, using 95% confidence intervals Alternatively, this can be a numeric value giving the desired confidence level.

mark.time

controls the labeling of the curves. If set to `FALSE`

, no
labeling is done.
If `TRUE`

, then curves are marked at each censoring time.
If `mark`

is a
numeric vector then curves are marked at the specified time points.

pch

vector of characters which will be used to label the curves.
The `points`

help file contains examples of the possible marks.
A single string such as "abcd" is treated as a vector
`c("a", "b", "c", "d")`

.
The vector is reused cyclically if it is shorter than the number of
curves. If it is present this implies `mark.time = TRUE`

.

col

a vector of integers specifying colors for each curve. The default value is 1.

lty

a vector of integers specifying line types for each curve. The default value is 1.

lwd

a vector of numeric values for line widths. The default value is 1.

cex

a numeric value specifying the size of the marks. This is not treated as a vector; all marks have the same size.

log

a logical value, if TRUE the y axis wll be on a log scale. Alternately, one of the standard character strings "x", "y", or "xy" can be given to specific logarithmic horizontal and/or vertical axes.

xscale

a numeric value used like `yscale`

for labels on the x axis.
A value of 365.25 will give labels in years instead of the original days.

yscale

a numeric value used to multiply the labels on the y axis.
A value of 100, for instance, would be used to give a percent scale.
Only the labels are
changed, not the actual plot coordinates, so that adding a curve with
"`lines(surv.exp(...))`

", say,
will perform as it did without the `yscale`

argument.

xlim,ylim

optional limits for the plotting region.

xmax

the maximum horizontal plot coordinate. This can be used to shrink
the range of a plot. It shortens the curve before plotting it, so
that unlike using the `xlim`

graphical parameter, warning
messages about out of bounds points are not generated.

fun

an arbitrary function defining a transformation of the survival
(or probability in state, or cumulative hazard) curves.
For example `fun=log`

is an alternative way to draw a log-survival curve
(but with the axis labeled with log(S) values),
and `fun=sqrt`

would generate a curve on square root scale.
Four often used transformations can be specified with a character
argument instead: `"S"`

gives the usual survival curve,
`"log"`

is the same as using the `log=T`

option,
`"event"`

or `"F"`

plots the empirical CDF \(F(t)= 1-S(t)\)
(f(y) = 1-y), and
`"cloglog"`

creates a complimentary log-log survival plot (f(y) =
log(-log(y)) along with log scale for the x-axis).
The terms `"identity"`

and `"surv"`

are
allowed as synonyms for `type="S"`

.
The argument `"cumhaz"`

causes the cumulative hazard function
to be plotted.

xlab

label given to the x-axis.

ylab

label given to the y-axis.

xaxs

either `"S"`

for a survival curve or a standard x axis style as
listed in `par`

; "r" (regular) is the R default.
Survival curves have historically been displayed with the curve
touching the y-axis,
but not touching the bounding box of the plot on the other 3 sides,
Type `"S"`

accomplishes this by manipulating the plot range and
then using the `"i"`

style internally.
The "S" style is becoming increasingly less common, however.

conf.times

optional vector of times at which to place a confidence bar on the curve(s). If present, these will be used instead of confidence bands.

conf.cap

width of the horizontal cap on top of the confidence bars; only used if conf.times is used. A value of 1 is the width of the plot region.

conf.offset

the offset for confidence bars, when there are multiple curves on the plot. A value of 1 is the width of the plot region. If this is a single number then each curve's bars are offset by this amount from the prior curve's bars, if it is a vector the values are used directly.

conf.type

One of `"plain"`

, `"log"`

(the default),
`"log-log"`

or `"logit"`

. Only
enough of the string to uniquely identify it is necessary.
The first option causes confidence intervals not to be
generated. The second causes the standard intervals
`curve +- k *se(curve)`

, where k is determined from
`conf.int`

. The log option calculates intervals based on the
cumulative hazard or log(survival). The log-log option bases the
intervals on the log hazard or log(-log(survival)), and the
logit option on log(survival/(1-survival)).

mark

a historical alias for `pch`

noplot

for multi-state models, curves with this label will not
be plotted. (Also see the `istate0`

argument in
`survcheck`

.)

cumhaz

plot the cumulative hazard rather than the probability
in state or survival. Optionally, this can be a numeric vector
specifying which columns of the `cumhaz`

component to plot.

ymin

this will normally be given as part of the `ylim`

argument

firstx

this will normally be given as part of the `xlim`

argument.

…

other arguments that will be passed forward to the underlying plot method, such as xlab or ylab.

a list with components `x`

and `y`

, containing the coordinates of the last point
on each of the curves (but not the confidence limits).
This may be useful for labeling.

If the object contains a cumulative hazard curve, then
`fun='cumhaz'`

will plot that curve, otherwise it will plot
-log(S) as an approximation. Theoretically, S =
\(\exp(-\Lambda)\) where S is the survival and
\(\Lambda\) is the cumulative hazard. The same relationship
holds for estimates of S and \(\Lambda\) only in special cases,
but the approximation is often close.

When the `survfit`

function creates a multi-state survival curve
the resulting object also has class `survfitms'.
Competing risk curves are a common case.
In this situation the `fun`

argument is ignored.

When the `conf.times`

argument is used, the confidence bars are
offset by `conf.offset`

units to avoid overlap.
The bar on each curve are the confidence interval for the time point
at which the bar is drawn, i.e., different time points for each curve.
If curves are steep at that point, the visual impact can sometimes
substantially differ for positive and negative values of
`conf.offset`

.

```
# NOT RUN {
leukemia.surv <- survfit(Surv(time, status) ~ x, data = aml)
plot(leukemia.surv, lty = 2:3)
legend(100, .9, c("Maintenance", "No Maintenance"), lty = 2:3)
title("Kaplan-Meier Curves\nfor AML Maintenance Study")
lsurv2 <- survfit(Surv(time, status) ~ x, aml, type='fleming')
plot(lsurv2, lty=2:3, fun="cumhaz",
xlab="Months", ylab="Cumulative Hazard")
# }
```

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