figure.mature.CC34.male = function( p, outdir, all.areas=T ) {
eps = 1e-6
classes = paste( "ma", c(13:9), ".CC3to4.no", sep="")
classnames = paste( "Instar", c(13:9) )
p$vars.to.model = classes
p$yrs = 1998:p$year.assessment
p$runindex = list(y=p$yrs, v=p$vars.to.model )
K = interpolation.db( DS="interpolation.simulation", p=p )
year.assessment = p$year.assessment
K = K[ -which( as.character(K$region)=="cfa4x" & K$yr <= 2002 ), ]
K = K[ -which( K$yr <= 1998 ), ]
if (all.areas) {
areas = c("cfa4x", "cfasouth", "cfanorth" )
regions = c("4X", "S-ENS", "N-ENS")
} else {
areas = c("cfasouth", "cfanorth" )
regions = c("S-ENS", "N-ENS")
}
n.regions = length(regions)
K$region = factor(as.character(K$region), levels=areas, labels=regions)
zero.value = K[1,]
zero.value$yr = year.assessment
zero.value$total = 0
zero.value$lbound = 0
zero.value$ubound = 0
cex.main = 1.4
cex.lab = 1.3
cex.axis = 1.3
xlim=range(K$yr, na.rm=T)
xlim[1]=xlim[1]-0.5
xlim[2]=xlim[2]+0.5
n.panels = length(classes)
for (i in c(1:n.regions)) {
td = K[as.character(K$vars) %in% classes ,]
td = td [ which( as.character(td$region) == regions[i]), ]
td$vars = factor( as.character(td$vars), levels=classes, labels=classnames )
convert = 1 # convert millions to ...
eps = 1e-6
varstocheck = c("total", "ubound", "lbound")
for (vs in varstocheck) {
td[,vs] = td[,vs] / convert
kk = which( td[,vs] <= eps )
td[kk,vs] = 0
}
td = td[is.finite(td$total) ,]
td = td[order(td$vars,td$yr),]
# last check to make sure data exists for all regions for the plots
for (rr in 1:length(classes)) {
nr=NULL
nr = length( which(td$vars==classnames[rr] ))
if (nr ==0) {
mm = zero.value
mm$vars = classnames[rr]
td = rbind( td, mm)
}
}
dir.create( outdir, recursive=T , showWarnings=F )
fn = file.path( outdir, paste("ma.CC3to4",areas[i],sep=".") )
Cairo( file=fn, type="pdf", bg="white", units="in", width=16, height=20, dpi=144 )
setup.lattice.options()
pl = xyplot( total~yr|vars, data=td, ub=td$ubound, lb=td$lbound,
layout=c(1,n.panels), xlim=xlim, scales = list(y = "free"),
main=paste("Mature male CC3 and CC4 snow crab --", regions[i]), xlab="Year",
ylab=expression(paste( "Number (X ", 10^6, " )")),
cex.lab=cex.lab, cex.axis=cex.axis, cex.main = cex.main,
panel = function(x, y, subscripts, ub, lb, ...) {
larrows(x, lb[subscripts],
x, ub[subscripts],
angle = 90, code = 3, length=0.05)
panel.xyplot(x, y, type="b", lty=1, lwd=2, pch=20, col="black", ...)
panel.abline(v=2001.5, col="gray", lty=3, lwd=2, ...)
panel.abline(h=0, col="black", lty=1, lwd=1, ...)
}
)
print(pl)
dev.off()
cmd( "convert -trim -quality 9 -geometry 100% -frame 2% -mattecolor white -antialias ", paste(fn, "pdf", sep="."), paste(fn, "png", sep=".") )
}
return("Done")
}
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