stat_wb_hbar: Integrate ranges under curve.

Description

stat_wb_hbar computes means under a curve. It first integrates the area under a spectral curve and also the mean expressed per nanaometre of wavelength for each waveband in the input. Sets suitable default aesthetics for geoms "errorbarh" and "hline" from 'ggplot', and "linerangeh", and "errorbarh" from 'ggstance'.

Usage

stat_wb_hbar(mapping = NULL, data = NULL, geom = "errorbarh",
  w.band = NULL, integral.fun = integrate_xy, ypos.fixed = NULL,
  position = "identity", na.rm = FALSE, show.legend = NA,
  inherit.aes = TRUE, ...)

Arguments

mapping

The aesthetic mapping, usually constructed with aes or aes_. Only needs to be set at the layer level if you are overriding the plot defaults.

data

A layer specific dataset - only needed if you want to override the plot defaults.

geom

The geometric object to use display the data

w.band

a waveband object or a list of waveband objects or numeric vector of at least length two.

integral.fun

function on $x$ and $y$.

ypos.fixed

numeric If not NULL used a constant value returned in y.

position

The position adjustment to use for overlapping points on this layer

na.rm

a logical value indicating whether NA values should be stripped before the computation proceeds.

show.legend

logical. Should this layer be included in the legends? NA, the default, includes if any aesthetics are mapped. FALSE never includes, and TRUE always includes.

inherit.aes

If FALSE, overrides the default aesthetics, rather than combining with them. This is most useful for helper functions that define both data and aesthetics and shouldn't inherit behaviour from the default plot specification, e.g. borders.

...

other arguments passed on to layer. This can include aesthetics whose values you want to set, not map. See layer for more details.

Value

A data frame with one row for each waveband object in the argument to w.band. Wavebeand outside the range of the spectral data are trimmed or discarded.

Computed variables

What it is named integral below is the result of appying integral.fun, with default integrate_xy.

x: w.band-midpoint
xmin: w.band minimum
xmax: w.band maximum
ymin: data$y minimum
ymax: data$y maximum
yint: data$y integral for the range of w.band
ymean: yint divided by wl_expanse(w.band)
y: ypos.fixed or mean of data
wb.color: color of the w.band
wb.name: label of w.band

Default aesthetics

Set by the statistic and available to geoms.

xmin: ..xmin..
xmax: ..xmax..
yintercept: ..ymean..
height: (..ymax.. - ..ymin..) * 2e-2
color: ..wb.color..

Required aesthetics

Required by the statistic and need to be set with aes().

x: numeric, wavelength in nanometres
y: numeric, a spectral quantity

Examples

Run this code

# NOT RUN {
library(photobiologyWavebands)
# ggplot() methods for spectral objects set a default mapping for x and y.
ggplot(sun.spct) +
  geom_line() +
  stat_wb_hbar(w.band = VIS_bands(), size = 1) +
  scale_color_identity() +
  theme_bw()

ggplot(sun.spct) +
  geom_line() +
  stat_wb_hbar(w.band = PAR(), size = 1) +
  scale_color_identity() +
  theme_bw()

ggplot(sun.spct) +
  geom_line() +
  stat_wb_hbar(w.band = PAR(), size = 1, ypos.fixed = 0) +
  scale_color_identity() +
  theme_bw()

ggplot(sun.spct) +
  geom_line() +
  stat_wb_hbar(w.band = CIE(), size = 1) +
  scale_color_identity() +
  theme_bw()

# }

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