Many mizer functions return values that depend on species and either size or
time. plot() creates a ggplot2 figure with one line for each species
showing the values against size or against time (depending on the type of
output). plotHover() creates an interactive version of the same figure.
A ggplot2 object, unless return_data = TRUE, in which case a data
frame is returned. plotHover() returns a plotly object.
An ArraySpeciesBySize, ArrayTimeBySpecies, or
ArrayTimeBySpeciesBySize object.
Arguments used by all methods:
speciesCharacter vector of species to include. NULL
(default) means all species.
highlightName or vector of names of the species to be highlighted.
totalA boolean value that determines whether the total over
all selected species is plotted as well. Default is FALSE.
backgroundA boolean value that determines whether background
species are included. Ignored if the model does not contain background
species. Default is TRUE.
return_dataIf TRUE, return the data frame instead of the
plot.
log_xIf TRUE, use a log10 x-axis. Default is TRUE for size
spectra and FALSE for time series.
log_yIf TRUE, use a log10 y-axis. Default is FALSE for
ArraySpeciesBySize and TRUE for ArrayTimeBySpecies.
logCharacter string specifying which axes should use log10
scales, in the same form as the base plot() argument. For example,
"x", "y", "xy" or "". If supplied, this overrides log_x and
log_y.
ylimA numeric vector of length two providing lower and upper
limits for the value (y) axis. Use NA to refer to the existing
minimum or maximum.
y_ticksThe approximate number of ticks desired on the y axis.
For ArraySpeciesBySize and ArrayTimeBySpeciesBySize methods:
all.sizesIf FALSE (default), values outside a species' size
range (w_min to w_max) are removed.
wlimA numeric vector of length two providing lower and upper
limits for the weight (x) axis. Use NA to refer to the existing
minimum or maximum.
llimA numeric vector of length two providing lower and upper
limits for the length (x) axis when size_axis = "l". Use NA to
refer to the existing minimum or maximum.
size_axisWhether to plot size as weight ("w", default) or
length ("l"), using the allometric weight-length relationship.
For ArrayTimeBySpecies methods:
tlimA numeric vector of length two providing lower and upper
limits for the time axis, e.g. c(1980, 2000). Use NA to apply no
limit at that end. Default is c(NA, NA).
For ArrayTimeBySpeciesBySize methods:
timeThe time to display. Default (NULL) is the final time
step.
This works because the mizer functions that give values that depend on
species and size return an ArraySpeciesBySize object and those that
give values that depend on species and time return an ArrayTimeBySpecies
object. These objects have attributes that store the name of the value,
its units, and a reference to the MizerParams object that the value was
computed from. This allows the plots to be automatically labelled and
coloured appropriately.
To compare two mizer arrays in a single plot, use plot2(). To show the
relative difference between two arrays, use plotRelative().
Other plotting functions:
addPlot(),
animate.ArrayTimeBySpeciesBySize(),
plot2(),
plotBiomass(),
plotCDF(),
plotCDF2(),
plotDiet(),
plotFMort(),
plotFeedingLevel(),
plotGrowthCurves(),
plotMizerParams,
plotMizerSim,
plotPredMort(),
plotRelative(),
plotSpectra(),
plotSpectra2(),
plotSpectraRelative(),
plotYield(),
plotYieldGear(),
plotting_functions
# \donttest{
plot(getEncounter(NS_params))
plot(getFeedingLevel(NS_params), species = c("Cod", "Herring"))
plot(getPredMort(NS_params), species = c("Cod", "Herring"),
size_axis = "l")
# }
# \donttest{
plot(getBiomass(NS_sim))
plot(getBiomass(NS_sim), species = c("Cod", "Herring"), total = TRUE)
plot(getYield(NS_sim), species = c("Cod", "Herring"))
# }
# \donttest{
plot(getFMort(NS_sim), time = 2010)
# }
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