This ggplot2 scale linearly scales all thickness values of geoms
that support the thickness aesthetic (such as geom_slabinterval()). It
can be used to align the thickness scales across multiple geoms (by default,
thickness is normalized on a per-geom level instead of as a global scale).
scale_thickness_shared(
name = waiver(),
breaks = waiver(),
labels = waiver(),
limits = function(l) c(min(0, l[[1]]), l[[2]]),
renormalize = FALSE,
oob = scales::oob_keep,
guide = "none",
...
)scale_thickness_identity(..., guide = "none")
thickness(x = double())
A ggplot2::Scale representing a scale for the thickness
aesthetic for ggdist geoms. Can be added to a ggplot() object.
The name of the scale. Used as the axis or legend title. If
waiver(), the default, the name of the scale is taken from the first
mapping used for that aesthetic. If NULL, the legend title will be
omitted.
One of:
NULL for no breaks
waiver() for the default breaks computed by the
transformation object
A numeric vector of positions
A function that takes the limits as input and returns breaks
as output (e.g., a function returned by scales::extended_breaks()).
Also accepts rlang lambda function notation.
One of:
NULL for no labels
waiver() for the default labels computed by the
transformation object
A character vector giving labels (must be same length as breaks)
An expression vector (must be the same length as breaks). See ?plotmath for details.
A function that takes the breaks as input and returns labels as output. Also accepts rlang lambda function notation.
One of:
NULL to use the default scale range
A numeric vector of length two providing limits of the scale.
Use NA to refer to the existing minimum or maximum
A function that accepts the existing (automatic) limits and returns
new limits. Also accepts rlang lambda function
notation.
Note that setting limits on positional scales will remove data outside of the limits.
If the purpose is to zoom, use the limit argument in the coordinate system
(see coord_cartesian()).
When mapping values to the thickness scale, should those
values be allowed to be renormalized by geoms (e.g. via the normalize parameter
to geom_slabinterval())? The default is FALSE: if scale_thickness_shared()
is in use, the geom-specific normalize parameter is ignored (this is achieved
by flagging values as already normalized by wrapping them in thickness()).
Set this to TRUE to allow geoms to also apply their own normalization.
One of:
Function that handles limits outside of the scale limits (out of bounds). Also accepts rlang lambda function notation.
The default (scales::censor()) replaces out of
bounds values with NA.
scales::squish() for squishing out of bounds values into range.
scales::squish_infinite() for squishing infinite values into range.
A function used to create a guide or its name. See
guides() for more information.
Arguments passed on to ggplot2::continuous_scale
aestheticsThe names of the aesthetics that this scale works with.
scale_nameThe name of the scale that should be used for error messages associated with this scale.
paletteA palette function that when called with a numeric vector with
values between 0 and 1 returns the corresponding output values
(e.g., scales::area_pal()).
minor_breaksOne of:
NULL for no minor breaks
waiver() for the default breaks (one minor break between
each major break)
A numeric vector of positions
A function that given the limits returns a vector of minor breaks. Also accepts rlang lambda function notation.
n.breaksAn integer guiding the number of major breaks. The algorithm
may choose a slightly different number to ensure nice break labels. Will
only have an effect if breaks = waiver(). Use NULL to use the default
number of breaks given by the transformation.
rescalerA function used to scale the input values to the
range [0, 1]. This is always scales::rescale(), except for
diverging and n colour gradients (i.e., scale_colour_gradient2(),
scale_colour_gradientn()). The rescaler is ignored by position
scales, which always use scales::rescale(). Also accepts rlang
lambda function notation.
expandFor position scales, a vector of range expansion constants used to add some
padding around the data to ensure that they are placed some distance
away from the axes. Use the convenience function expansion()
to generate the values for the expand argument. The defaults are to
expand the scale by 5% on each side for continuous variables, and by
0.6 units on each side for discrete variables.
na.valueMissing values will be replaced with this value.
transFor continuous scales, the name of a transformation object or the object itself. Built-in transformations include "asn", "atanh", "boxcox", "date", "exp", "hms", "identity", "log", "log10", "log1p", "log2", "logit", "modulus", "probability", "probit", "pseudo_log", "reciprocal", "reverse", "sqrt" and "time".
A transformation object bundles together a transform, its inverse,
and methods for generating breaks and labels. Transformation objects
are defined in the scales package, and are called <name>_trans (e.g.,
scales::boxcox_trans()). You can create your own
transformation with scales::trans_new().
positionFor position scales, The position of the axis.
left or right for y axes, top or bottom for x axes.
superThe super class to use for the constructed scale
An object (typically a numeric()) to be converted to a thickness()
object.
Matthew Kay
By default, normalization/scaling of slab thicknesses is controlled by geometries,
not by a ggplot2 scale function. This allows various functionality not
otherwise possible, such as (1) allowing different geometries to have different
thickness scales and (2) allowing the user to control at what level of aggregation
(panels, groups, the entire plot, etc) thickness scaling is done via the normalize
parameter to geom_slabinterval().
However, this default approach has one drawback: two different geoms will always
have their own scaling of thickness. scale_thickness_shared() offers an
alternative approach: when added to a chart, all geoms will use the same
thickness scale, and geom-level normalization (via their normalize parameters)
is ignored. This is achieved by "marking" thickness values as already
normalized by wrapping them in the thickness() data type (this can be
disabled by setting renormalize = TRUE).
thickness() is used by scale_thickness_shared() to create numeric()-like
objects marked as being in units of slab "thickness". Unlike regular numeric()s,
thickness() values mapped onto the thickness aesthetic are not rescaled by
scale_thickness_shared() or geom_slabinterval(). In most cases thickness()
is not useful directly; though it can be used to mark values that should not be
rescaled---see the definitions of stat_ccdfinterval() and stat_gradientinterval()
for some usages.
Note: while a slightly more typical name for scale_thickness_shared() might
be scale_thickness_continuous(), the latter name would cause this scale
to be applied to all thickness aesthetics by default according to the rules
ggplot2 uses to find default scales. Thus, to retain the usual behavior
of stat_slabinterval() (per-geom normalization of thickness), this scale
is called scale_thickness_shared().
The thickness aesthetic of geom_slabinterval().
Other ggdist scales:
scale_colour_ramp,
scale_side_mirrored(),
scales
library(distributional)
library(ggplot2)
library(dplyr)
prior_post = data.frame(
prior = dist_normal(0, 1),
posterior = dist_normal(0.1, 0.5)
)
# By default, separate geoms have their own thickness scales, which means
# distributions plotted using two separate geoms will not have their slab
# functions drawn on the same scale (thus here, the two distributions have
# different areas under their density curves):
prior_post %>%
ggplot() +
stat_halfeye(aes(xdist = posterior)) +
stat_slab(aes(xdist = prior), fill = NA, color = "red")
# For this kind of prior/posterior chart, it makes more sense to have the
# densities on the same scale; thus, the areas under both would be the same.
# We can do that using scale_thickness_shared():
prior_post %>%
ggplot() +
stat_halfeye(aes(xdist = posterior)) +
stat_slab(aes(xdist = prior), fill = NA, color = "#e41a1c") +
scale_thickness_shared()
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