Nothing
R/specialist.panels.01.R
In loa: Lattice Options and Add-Ins
Defines functions
panel.binPlot
Documented in
panel.binPlot
#in development code
#[TBC - NUMBER] functions
#panel.loaLevelPlot
#panel.loaLevelPlotRaster - currently not exported
#panel.surfaceSmooth
#panel.kernelDensity
#panel.binPlot
#panel.surfaceSmooth
#NOTE: much borrowed from lattice
###################################
###################################
##panel.loaLevelPlot
###################################
###################################
panel.loaLevelPlot <- function (x = NULL, y = NULL, z = NULL,
..., loa.settings = FALSE) {
###################
#setup
###################
extra.args <- list(...)
if (loa.settings)
return(list(group.args = c("col"),
zcase.args = c("pch"),
##common.args = c(),
default.settings = list(key.fun = "draw.loaColorKey",
region = TRUE, contour = TRUE,
lim.borders = 0.05, key.raster = TRUE,
isolate.col.regions = TRUE,
scheme="loa.scheme")))
##########################
#question
#might be able to more the key.raster = true into the draw... function
##########################
##################
#plotting
##################
#grid
if(isGood4LOA(extra.args$grid))
panel.loaGrid(panel.scales = extra.args$panel.scales,
grid = extra.args$grid)
#region
temp <- do.call(listLoad, listUpdate(extra.args, list(load = "region")))$region
if (isGood4LOA(temp)) {
temp <- if(is.list(temp))
listUpdate(extra.args, temp) else
extra.args
if(!"at" %in% names(temp))
temp$at <- seq(min(temp$zlim), max(temp$zlim),
length.out = 100)
temp <- listUpdate(temp, list(x = x, y = y, z = z,
interpolate = T, subscripts = T, region = TRUE,
contour = FALSE))
if("groups" %in% names(temp) || "zcases" %in% names(temp))
do.call(groupsAndZcasesPanelHandler, listUpdate(temp,
list(panel = panel.loaLevelPlotRaster)))
else do.call(panel.loaLevelPlotRaster, temp)
}
#contour
####################
#note:
#contour uses panel.levelplot,
#but region uses panel.loaLevelPlotRaster
#this is for better transparency handling
#for pdf plotting
####################
temp <- do.call(listLoad, listUpdate(extra.args, list(load = "contour")))$contour
temp.fun <- function(...) {
extra.args <- list(...)
if (!"labels" %in% names(extra.args))
extra.args$labels <- if ("col" %in% names(extra.args))
list(col = extra.args$col)
else TRUE
do.call(panel.levelplot, extra.args)
}
if(isGood4LOA(temp)) {
temp <- if(is.list(temp))
listUpdate(extra.args, temp)
else extra.args
if(!"at" %in% names(temp))
temp$at <- pretty(temp$zlim, 10)
temp <- listUpdate(temp, list(x = x, y = y, z = z,
interpolate = T, subscripts = T, region = FALSE,
contour = TRUE))
if ("groups" %in% names(temp) || "zcases" %in% names(temp))
do.call(groupsAndZcasesPanelHandler, listUpdate(temp,
list(panel = temp.fun)))
else do.call(temp.fun, temp)
}
}
#####################################
#####################################
##panel.loaLevelPlotRaster
#####################################
#####################################
#currently not exported
#this is just panel.levelplot.raster with
#loa colHandler handling of colours
panel.loaLevelPlotRaster <- function (x, y, z, subscripts, at = pretty(z), ..., col.regions = regions$col,
alpha.regions = regions$alpha, interpolate = FALSE, identifier = "levelplot")
{
if (length(subscripts) == 0)
return()
regions <- trellis.par.get("regions")
x.is.factor <- is.factor(x)
y.is.factor <- is.factor(y)
x <- as.numeric(x)
y <- as.numeric(y)
z <- as.numeric(z)
#####################
#lattice line
# zcol <- level.colors(z, at, col.regions, alpha.regions=0.5, colors = TRUE)
#loa variation for alpha handling
zcol <- colHandler(z=z, at=at, col.regions=col.regions, alpha.regions=alpha.regions)
#####################
x <- x[subscripts]
y <- y[subscripts]
z <- z[subscripts]
zcol <- zcol[subscripts]
temp.fun <- function(){
aname <- "group.number"
fnames <- names(formals(sys.function(sys.parent())))
if (is.na(match(aname, fnames))) {
if (is.na(match("...", fnames)))
FALSE
else {
dotsCall <- eval(quote(substitute(list(...))), sys.parent())
!is.na(match(aname, names(dotsCall)))
}} else FALSE
}
if (temp.fun())
group <- list(...)$group.number
else group <- 0
if (x.is.factor) {
ux <- seq(from = min(x, na.rm = TRUE), to = max(x, na.rm = TRUE))
xwid <- 1L
}
else {
ux <- sort(unique(x[!is.na(x)]))
if (!isTRUE(all.equal(diff(range(diff(ux))), 0)))
warning("'x' values are not equispaced; output may be wrong")
xwid <- mean(diff(ux))
}
if (y.is.factor) {
ux <- seq(from = min(y, na.rm = TRUE), to = max(y, na.rm = TRUE))
ywid <- 1L
}
else {
uy <- sort(unique(y[!is.na(y)]))
if (!isTRUE(all.equal(diff(range(diff(uy))), 0)))
warning("'y' values are not equispaced; output may be wrong")
ywid <- mean(diff(uy))
}
ncolumns <- length(ux)
nrows <- length(uy)
xlow <- ux[1] - 0.5 * xwid
xhigh <- ux[ncolumns] + 0.5 * xwid
ylow <- uy[1] - 0.5 * ywid
yhigh <- uy[nrows] + 0.5 * ywid
zmat <- rep("transparent", ncolumns * nrows)
idx <- match(x, ux)
idy <- match(y, rev(uy))
id <- idy + nrows * (idx - 1L)
zmat[id] <- zcol
dim(zmat) <- c(nrows, ncolumns)
grid.raster(as.raster(zmat), interpolate = interpolate, x = xlow,
y = ylow, width = xhigh - xlow, height = yhigh - ylow,
just = c("left", "bottom"), default.units = "native",
name = trellis.grobname(paste(identifier, "raster", sep = "."),
type = "panel", group = group))
}
#######################################
#######################################
##panel.surfaceSmooth
#######################################
#######################################
panel.surfaceSmooth <- function (x = NULL, y = NULL, z = NULL,
breaks = 200, x.breaks = breaks, y.breaks = breaks,
smooth.fun = NULL, too.far=0, ...,
plot = TRUE, process = TRUE,
loa.settings = FALSE){
####################
#setup
####################
extra.args <- list(...)
#want better way to handle process.args
#when modelling function is buried
#
if(!is.function(smooth.fun)){
#surface arg is to extrapolate to full
#range if outside requested surface range
#is larger than data
smooth.fun <- function(x, y, z, ...) loess(z ~ x * y, surface="direct", ...)
process.args <- unique(names(formals(loess)))
} else {
process.args <- unique(names(formals(smooth.fun)))
}
plot.args <- unique(names(formals(panel.levelplot)))
############################
if (loa.settings)
return(list(process.args = process.args, plot.args = plot.args,
group.args = c("col"), zcase.args = c("pch"),
common.args = c("breaks", "x.breaks", "y.breaks", "smooth.fun"),
default.settings = loaHandler(panel.loaLevelPlot)$default.settings))
if(is.null(z))
stop("no z values supplied; please recall supplying z",
call. = FALSE)
if (process) {
#############################
# keeping original data as ghosts
#############################
#########################
#ghosts have to go
###########################
#this need to only use
#process args
#
############################
#this needs to not overwrite
#x when doing that
#this need to be redone/redesigned
ghosts <- list(x=x,y=y,z=z)
temp <- c("x", "y", "z")[c("x", "y", "z") %in% process.args]
temp <- if(!"z" %in% temp && length(temp)==2)
temp else c("x", "y", "z")
mod <- list(x=x, y=y, z=z)
mod <- mod[temp]
mod <- listUpdate(mod, extra.args, use.b=process.args)
mod <- do.call(smooth.fun, mod)
## mod <- smooth.fun(x,y,z)
########################
#next bit as before
#just makes a regular grid
########################
###############################
#handling if not list of new (x,y,z)
###############################
################################
#handling if mod output
################################
if("call" %in% names(mod)){
##############################
#previous
#was to stop the big white space border
#might need a panel.range like panel.kernelDensity
# temp <- range(x, na.rm=TRUE)
temp <- if("xlim" %in% names(extra.args))
extra.args$xlim else range(x, na.rm = TRUE)
x <- seq(min(temp), max(temp), length.out = (x.breaks))
# temp <- range(y, na.rm=TRUE)
temp <- if("ylim" %in% names(extra.args))
extra.args$ylim else range(y, na.rm = TRUE)
y <- seq(min(temp), max(temp), length.out = (y.breaks))
d <- data.frame(x = rep(x, each= y.breaks), y = rep(y, times=x.breaks))
temp <- try(predict(mod, newdata = d, se.fit = TRUE))
if(!class(try)[1]=="try-error"){
mod <- cbind(temp,d)
names(mod)[1] <- "z"
}
}
################################
#handling if x, y and matrix
################################
if("z" %in% names(mod) && is.matrix(mod$z)){
mod <- list(x = rep(mod$x, length(mod$y)),
y = rep(mod$y, each = length(mod$x)),
z = as.vector(mod$z))
}
################################
#next this bit added
#to make the surface
################################
if (too.far > 0) {
ex.tf <- exclude.too.far(mod$x, mod$y, ghosts$x,
ghosts$y, dist = too.far)
mod$z[ex.tf] <- NA
}
if("na.rm" %in% names(extra.args) && extra.args$na.omit)
mod <- na.omit(mod)
################################
#could just return mod as list at this stage???
###############################
if (!plot)
return(list(x = mod$x, y = mod$y, z = mod$z))
#
# if (!plot)
# return(list(x = mod.out$x, y = mod.out$y, z = mod.out$z,
# ghosts=ghosts))
}
if (plot) {
extra.args <- listUpdate(extra.args, list(x=x, y=y, z=z, subscripts=T,
plot=plot, process=process))
do.call(panel.loaLevelPlot, extra.args)
##################
#show original points
#size linked to z
##################
# #if(isGood4LOA(show.ghosts)){
# # extra.args<-listUpdate(extra.args, ghosts)
# # extra.args$col<-"blue"
# # extra.args$pch<-1
# # extra.args$cex<-NULL
# # do.call(panel.loaPlot, extra.args)
# #}
}
}
##############################
##############################
##panel.kernelDensity
##############################
##############################
panel.kernelDensity <- function (x, y, z = NULL, ...,
n = 20, local.wt = TRUE, kernel.fun = NULL, too.far=0, panel.range = TRUE,
process = TRUE, plot = TRUE, loa.settings = FALSE)
{
####################
#setup
####################
extra.args <- list(...)
if(!is.function(kernel.fun)){
kernel.fun <- function(...) {
extra.args <- list(...)
ans <- do.call(MASS::kde2d, extra.args)
output <- list(x = rep(ans$x, extra.args$n), y = rep(ans$y,
each = extra.args$n), z = as.vector(ans$z))
}
process.args <- unique(names(formals(MASS::kde2d)))
} else {
process.args <- unique(names(formals(kernel.fun)))
}
plot.args <- unique(names(formals(panel.loaLevelPlot)))
###################
#return safe.mode info
###################
if(loa.settings)
return(list(process.args = process.args,
plot.args = plot.args,
group.args = c("col"),
default.settings = list(key.fun = "draw.loaColorRegionsKey",
key.raster = TRUE,
isolate.col.regions = TRUE,
scheme="loa.scheme")))
###################
#process section
###################
if(process){
if(!is.null(z))
warning("z values supplied but ignored (frequency plot)", call. = FALSE)
temp <- length(x)
mylist <- list(x = x, y = y, n = n)
mylist <- listUpdate(mylist, extra.args, use = process.args)
if (panel.range & !"lims" %in% names(extra.args)) {
lims <- if("xlim" %in% names(extra.args) & "ylim" %in% names(extra.args))
list(xlim = extra.args$xlim, ylim = extra.args$ylim) else
current.panel.limits()
mylist$lims <- c(lims$xlim, lims$ylim)
}
kern.in <- do.call(kernel.fun, mylist)
if(local.wt)
kern.in$z <- (kern.in$z/sum(kern.in$z)) * temp
#this is from panel.surfaceSmooth
#there ghosts was make at start as list(x=x, y=y)
#here mylist has x and y unchanged... I think...
if (too.far > 0) {
ex.tf <- exclude.too.far(kern.in$x, kern.in$y, mylist$x,
mylist$y, dist = too.far)
kern.in$z[ex.tf] <- NA
}
if(!plot) return(kern.in)
} else {
kern.in <- list(x=x, y=y, z=z)
}
###########################
#plot section
###########################
if(plot){
if (!"subscripts" %in% names(kern.in))
kern.in$subscripts <- TRUE
extra.args <- listUpdate(extra.args, kern.in)
if (!"contour" %in% names(extra.args))
extra.args$contour <- TRUE
if (!"region" %in% names(extra.args))
extra.args$region <- TRUE
if (!"at" %in% names(extra.args))
extra.args$at <- pretty(extra.args$zlim)
#######################
#stuff below removed because
#I am now running this
#through panel.loaLevelPlot
#not panel.levelPlot
#######################
#might need to check
# temp <- length(extra.args$at)-1
## extra.args$col.regions <- do.call(colHandler,
## listUpdate(extra.args,
## list(z=1:temp, ref=1:temp, zlim=c(1,temp))))
# extra.args$col.regions <- colHandler(1:(length(extra.args$at) - 1), col.regions = extra.args$col.regions,
# alpha.regions = if(is.null(extra.args$alpha.regions)) extra.args$alpha else extra.args$alpha.regions,
# output = "col")
##colHandler(z=1:(length(temp)-1),
##col.regions=extra.args$col.regions)
##order matters
##when removing alpha terms
## $alpha gets $alpha...
# extra.args$alpha.regions <- NULL
#this col is currently kept to set
#contour col
if (!"col" %in% names(extra.args))
extra.args$col <- trellis.par.get("dot.symbol")$col
extra.args$col <- colHandler(1, col=extra.args$col, alpha.regions=extra.args$alpha)
# extra.args$alpha <- NULL
if("groups" %in% names(extra.args) || "zcases" %in% names(extra.args))
do.call(groupsAndZcasesPanelHandler, listUpdate(extra.args, list(panel = panel.loaLevelPlot, plot=plot, process=process))) else
do.call(panel.loaLevelPlot, extra.args)
}
}
#####################################
#####################################
##panel.binPlot
#####################################
#####################################
panel.binPlot <- function(x = NULL, y = NULL, z = NULL,
breaks=20, x.breaks = breaks, y.breaks = breaks,
x1=NULL, x2=NULL, y1=NULL, y2=NULL,
statistic = mean, pad.grid = FALSE, ...,
plot = TRUE, process = TRUE, loa.settings = FALSE
){
#groups is somehow
#working #######how?
#tidy pass to lpolygon
##border to track par.settings
##reset from par.settings if present
##does par.settings want to be in ignore?
#pass statistic
##to work on
#make cuts flexible
##check which other args need to be common
#what does this do about dropped levels
#when cutting?
#lim which is not plot range?
#an option for cuts that fit to range
if(loa.settings)
return(list(group.args= c("col"),
zcase.args= c("pch"),
common.args = c("breaks", "pad.grid", "x.breaks", "y.breaks", "statistics"),
default.settings = list(key.fun = "draw.loaColorKey", key.raster = TRUE,
x.elements = c("x", "x1", "x2"), isolate.col.regions = TRUE,
scheme="loa.scheme")))
extra.args <- list(...)
#process
if(process){
#x.bins
##this could be a function
##making a data.frame or list?
##then run again for y.bin
temp <- if("xlim" %in% names(extra.args))
extra.args$xlim else range(x)
x.cuts <- if(length(x.breaks)==1){
seq(min(temp), max(temp), length.out = (x.breaks + 1))
} else {
if(min(x.breaks) > min(temp)) temp <- c(min(temp), x.breaks)
if(min(x.breaks) < max(temp)) temp <- c(max(temp), x.breaks)
temp <- unique(sort(temp))
}
x.case <- cut(x, x.cuts)
x.1 <- x.cuts[-length(x.cuts)]
x.2 <- x.cuts[-1]
x.1.5 <- x.1 + ((x.2-x.1)/2)
#y.bins
temp <- if("ylim" %in% names(extra.args))
extra.args$ylim else range(y)
y.cuts <- if(length(y.breaks)==1){
seq(min(temp), max(temp), length.out = (y.breaks + 1))
} else {
if(min(y.breaks) > min(temp)) temp <- c(min(temp), y.breaks)
if(min(y.breaks) < max(temp)) temp <- c(max(temp), y.breaks)
temp <- unique(sort(temp))
}
y.case <- cut(y, y.cuts)
y.1 <- y.cuts[-length(y.cuts)]
y.2 <- y.cuts[-1]
y.1.5 <- y.1 + ((y.2-y.1)/2)
if(is.null(z)){
#if no z's set:
##need a dummy set
z <- rep(1, length=length(x))
##and only length is valid function
statistic = length
##also should warning that this happened
warning("no z values supplied; so binned as counts", call. = FALSE)
}
ans <- aggregate(z, data.frame(x.case,y.case), statistic)
ans <- na.omit(ans)
#think about this
#
temp <- ans$x.case
levels(temp) <- x.1.5
x <- as.numeric(as.character(temp))
levels(temp) <- x.1
x1 <- as.numeric(as.character(temp))
levels(temp) <- x.2
x2 <- as.numeric(as.character(temp))
temp <- ans$y.case
levels(temp) <- y.1.5
y <- as.numeric(as.character(temp))
levels(temp) <- y.1
y1 <- as.numeric(as.character(temp))
levels(temp) <- y.2
y2 <- as.numeric(as.character(temp))
z <- ans$x
#check position of pad grid for
#new bit re pad.grid
if(pad.grid){
#add in the NA cases if padded grid out fully
#might replace this with a drop or na.action option later?
test <- expand.grid(list(x=x.1.5, y=y.1.5))
test <- cbind(test, expand.grid(list(x1=x.1, y1=y.1)))
test <- cbind(test, expand.grid(list(x2=x.2, y2=y.2)))
ans <- data.frame(x=x, y=y,z=z)
ans <- merge(test, ans, all=TRUE)
x <- ans$x
y <- ans$y
z <- ans$z
x1 <- ans$x1
y1 <- ans$y1
x2 <- ans$x2
y2 <- ans$y2
}
#think about x1, x2, y1, y2
#do we need them?
if(!plot)
return(list(x=x, y=y, z=z, x1=x1, x2=x2, y1=y1, y2=y2))
}
#plot
if(plot){
######################
#new bit
######################
# temp <- listUpdate(extra.args, list(x=x, y=y, z=z, subscripts=1:length(x)))
# if(!"at" %in% names(temp))
# temp$at <- seq(min(temp$zlim), max(temp$zlim), length.out = 100)
# do.call(panel.levelplot, temp)
#################
############################
#replaced bit
############################
##warning if groups or zcases present
##and strip out before passing on
if(!"at" %in% names(extra.args))
extra.args$at <- seq(min(extra.args$zlim), max(extra.args$zlim), length.out=100)
#if not given
#col in boxes from col.regions
col <- do.call(colHandler, listUpdate(extra.args, list(z=z, ref=z), ignore="col"))
#border handling
#need to tidy this
# if(is.null(border)){
# if("col" %in% names(extra.args))
# border <- extra.args$col[1] else
# border <- FALSE
# }
#link into fault settings
#scheme, etc, see panel.polar... examples
#this gets col/alpha setting
#might need to rethink alpha/alpha.regions handling in colHander
if(is.null(extra.args$border) && "col" %in% names(extra.args))
extra.args$border <- do.call(colHandler,
listUpdate(extra.args, list(z=1, ref=1, zlim=c(1,1)),
ignore=c("col.regions", "alpha.regions")))
if(is.null(extra.args$border))
extra.args$border <- FALSE
#think about passing lty, etc.
#for border line properties
lrect(x1, y1, x2, y2, col=col, border=extra.args$border )#, alpha=extra.args$alpha)
# for(i in 1:length(x1)){
##this could be all panel.elements
##
# temp <- list(x = c(x1[i], x1[i], x2[i], x2[i]),
# y = c(y1[i], y2[i], y2[i], y1[i]),
# col = extra.args$col[i])
# temp <- listUpdate(extra.args[!names(extra.args) %in% c("x1", "x2", "y1", "y2")], temp)
#might not need all this
#track border
# temp <- listUpdate(extra.args, temp)
# do.call(lpolygon, temp)
# }
##################################
}
}
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Defines functions panel.binPlot
Documented in panel.binPlot
#in development code
#[TBC - NUMBER] functions
#panel.loaLevelPlot
#panel.loaLevelPlotRaster - currently not exported
#panel.surfaceSmooth
#panel.kernelDensity
#panel.binPlot
#panel.surfaceSmooth
#NOTE: much borrowed from lattice
###################################
###################################
##panel.loaLevelPlot
###################################
###################################
panel.loaLevelPlot <- function (x = NULL, y = NULL, z = NULL,
..., loa.settings = FALSE) {
###################
#setup
###################
extra.args <- list(...)
if (loa.settings)
return(list(group.args = c("col"),
zcase.args = c("pch"),
##common.args = c(),
default.settings = list(key.fun = "draw.loaColorKey",
region = TRUE, contour = TRUE,
lim.borders = 0.05, key.raster = TRUE,
isolate.col.regions = TRUE,
scheme="loa.scheme")))
##########################
#question
#might be able to more the key.raster = true into the draw... function
##########################
##################
#plotting
##################
#grid
if(isGood4LOA(extra.args$grid))
panel.loaGrid(panel.scales = extra.args$panel.scales,
grid = extra.args$grid)
#region
temp <- do.call(listLoad, listUpdate(extra.args, list(load = "region")))$region
if (isGood4LOA(temp)) {
temp <- if(is.list(temp))
listUpdate(extra.args, temp) else
extra.args
if(!"at" %in% names(temp))
temp$at <- seq(min(temp$zlim), max(temp$zlim),
length.out = 100)
temp <- listUpdate(temp, list(x = x, y = y, z = z,
interpolate = T, subscripts = T, region = TRUE,
contour = FALSE))
if("groups" %in% names(temp) || "zcases" %in% names(temp))
do.call(groupsAndZcasesPanelHandler, listUpdate(temp,
list(panel = panel.loaLevelPlotRaster)))
else do.call(panel.loaLevelPlotRaster, temp)
}
#contour
####################
#note:
#contour uses panel.levelplot,
#but region uses panel.loaLevelPlotRaster
#this is for better transparency handling
#for pdf plotting
####################
temp <- do.call(listLoad, listUpdate(extra.args, list(load = "contour")))$contour
temp.fun <- function(...) {
extra.args <- list(...)
if (!"labels" %in% names(extra.args))
extra.args$labels <- if ("col" %in% names(extra.args))
list(col = extra.args$col)
else TRUE
do.call(panel.levelplot, extra.args)
}
if(isGood4LOA(temp)) {
temp <- if(is.list(temp))
listUpdate(extra.args, temp)
else extra.args
if(!"at" %in% names(temp))
temp$at <- pretty(temp$zlim, 10)
temp <- listUpdate(temp, list(x = x, y = y, z = z,
interpolate = T, subscripts = T, region = FALSE,
contour = TRUE))
if ("groups" %in% names(temp) || "zcases" %in% names(temp))
do.call(groupsAndZcasesPanelHandler, listUpdate(temp,
list(panel = temp.fun)))
else do.call(temp.fun, temp)
}
}
#####################################
#####################################
##panel.loaLevelPlotRaster
#####################################
#####################################
#currently not exported
#this is just panel.levelplot.raster with
#loa colHandler handling of colours
panel.loaLevelPlotRaster <- function (x, y, z, subscripts, at = pretty(z), ..., col.regions = regions$col,
alpha.regions = regions$alpha, interpolate = FALSE, identifier = "levelplot")
{
if (length(subscripts) == 0)
return()
regions <- trellis.par.get("regions")
x.is.factor <- is.factor(x)
y.is.factor <- is.factor(y)
x <- as.numeric(x)
y <- as.numeric(y)
z <- as.numeric(z)
#####################
#lattice line
# zcol <- level.colors(z, at, col.regions, alpha.regions=0.5, colors = TRUE)
#loa variation for alpha handling
zcol <- colHandler(z=z, at=at, col.regions=col.regions, alpha.regions=alpha.regions)
#####################
x <- x[subscripts]
y <- y[subscripts]
z <- z[subscripts]
zcol <- zcol[subscripts]
temp.fun <- function(){
aname <- "group.number"
fnames <- names(formals(sys.function(sys.parent())))
if (is.na(match(aname, fnames))) {
if (is.na(match("...", fnames)))
FALSE
else {
dotsCall <- eval(quote(substitute(list(...))), sys.parent())
!is.na(match(aname, names(dotsCall)))
}} else FALSE
}
if (temp.fun())
group <- list(...)$group.number
else group <- 0
if (x.is.factor) {
ux <- seq(from = min(x, na.rm = TRUE), to = max(x, na.rm = TRUE))
xwid <- 1L
}
else {
ux <- sort(unique(x[!is.na(x)]))
if (!isTRUE(all.equal(diff(range(diff(ux))), 0)))
warning("'x' values are not equispaced; output may be wrong")
xwid <- mean(diff(ux))
}
if (y.is.factor) {
ux <- seq(from = min(y, na.rm = TRUE), to = max(y, na.rm = TRUE))
ywid <- 1L
}
else {
uy <- sort(unique(y[!is.na(y)]))
if (!isTRUE(all.equal(diff(range(diff(uy))), 0)))
warning("'y' values are not equispaced; output may be wrong")
ywid <- mean(diff(uy))
}
ncolumns <- length(ux)
nrows <- length(uy)
xlow <- ux[1] - 0.5 * xwid
xhigh <- ux[ncolumns] + 0.5 * xwid
ylow <- uy[1] - 0.5 * ywid
yhigh <- uy[nrows] + 0.5 * ywid
zmat <- rep("transparent", ncolumns * nrows)
idx <- match(x, ux)
idy <- match(y, rev(uy))
id <- idy + nrows * (idx - 1L)
zmat[id] <- zcol
dim(zmat) <- c(nrows, ncolumns)
grid.raster(as.raster(zmat), interpolate = interpolate, x = xlow,
y = ylow, width = xhigh - xlow, height = yhigh - ylow,
just = c("left", "bottom"), default.units = "native",
name = trellis.grobname(paste(identifier, "raster", sep = "."),
type = "panel", group = group))
}
#######################################
#######################################
##panel.surfaceSmooth
#######################################
#######################################
panel.surfaceSmooth <- function (x = NULL, y = NULL, z = NULL,
breaks = 200, x.breaks = breaks, y.breaks = breaks,
smooth.fun = NULL, too.far=0, ...,
plot = TRUE, process = TRUE,
loa.settings = FALSE){
####################
#setup
####################
extra.args <- list(...)
#want better way to handle process.args
#when modelling function is buried
#
if(!is.function(smooth.fun)){
#surface arg is to extrapolate to full
#range if outside requested surface range
#is larger than data
smooth.fun <- function(x, y, z, ...) loess(z ~ x * y, surface="direct", ...)
process.args <- unique(names(formals(loess)))
} else {
process.args <- unique(names(formals(smooth.fun)))
}
plot.args <- unique(names(formals(panel.levelplot)))
############################
if (loa.settings)
return(list(process.args = process.args, plot.args = plot.args,
group.args = c("col"), zcase.args = c("pch"),
common.args = c("breaks", "x.breaks", "y.breaks", "smooth.fun"),
default.settings = loaHandler(panel.loaLevelPlot)$default.settings))
if(is.null(z))
stop("no z values supplied; please recall supplying z",
call. = FALSE)
if (process) {
#############################
# keeping original data as ghosts
#############################
#########################
#ghosts have to go
###########################
#this need to only use
#process args
#
############################
#this needs to not overwrite
#x when doing that
#this need to be redone/redesigned
ghosts <- list(x=x,y=y,z=z)
temp <- c("x", "y", "z")[c("x", "y", "z") %in% process.args]
temp <- if(!"z" %in% temp && length(temp)==2)
temp else c("x", "y", "z")
mod <- list(x=x, y=y, z=z)
mod <- mod[temp]
mod <- listUpdate(mod, extra.args, use.b=process.args)
mod <- do.call(smooth.fun, mod)
## mod <- smooth.fun(x,y,z)
########################
#next bit as before
#just makes a regular grid
########################
###############################
#handling if not list of new (x,y,z)
###############################
################################
#handling if mod output
################################
if("call" %in% names(mod)){
##############################
#previous
#was to stop the big white space border
#might need a panel.range like panel.kernelDensity
# temp <- range(x, na.rm=TRUE)
temp <- if("xlim" %in% names(extra.args))
extra.args$xlim else range(x, na.rm = TRUE)
x <- seq(min(temp), max(temp), length.out = (x.breaks))
# temp <- range(y, na.rm=TRUE)
temp <- if("ylim" %in% names(extra.args))
extra.args$ylim else range(y, na.rm = TRUE)
y <- seq(min(temp), max(temp), length.out = (y.breaks))
d <- data.frame(x = rep(x, each= y.breaks), y = rep(y, times=x.breaks))
temp <- try(predict(mod, newdata = d, se.fit = TRUE))
if(!class(try)[1]=="try-error"){
mod <- cbind(temp,d)
names(mod)[1] <- "z"
}
}
################################
#handling if x, y and matrix
################################
if("z" %in% names(mod) && is.matrix(mod$z)){
mod <- list(x = rep(mod$x, length(mod$y)),
y = rep(mod$y, each = length(mod$x)),
z = as.vector(mod$z))
}
################################
#next this bit added
#to make the surface
################################
if (too.far > 0) {
ex.tf <- exclude.too.far(mod$x, mod$y, ghosts$x,
ghosts$y, dist = too.far)
mod$z[ex.tf] <- NA
}
if("na.rm" %in% names(extra.args) && extra.args$na.omit)
mod <- na.omit(mod)
################################
#could just return mod as list at this stage???
###############################
if (!plot)
return(list(x = mod$x, y = mod$y, z = mod$z))
#
# if (!plot)
# return(list(x = mod.out$x, y = mod.out$y, z = mod.out$z,
# ghosts=ghosts))
}
if (plot) {
extra.args <- listUpdate(extra.args, list(x=x, y=y, z=z, subscripts=T,
plot=plot, process=process))
do.call(panel.loaLevelPlot, extra.args)
##################
#show original points
#size linked to z
##################
# #if(isGood4LOA(show.ghosts)){
# # extra.args<-listUpdate(extra.args, ghosts)
# # extra.args$col<-"blue"
# # extra.args$pch<-1
# # extra.args$cex<-NULL
# # do.call(panel.loaPlot, extra.args)
# #}
}
}
##############################
##############################
##panel.kernelDensity
##############################
##############################
panel.kernelDensity <- function (x, y, z = NULL, ...,
n = 20, local.wt = TRUE, kernel.fun = NULL, too.far=0, panel.range = TRUE,
process = TRUE, plot = TRUE, loa.settings = FALSE)
{
####################
#setup
####################
extra.args <- list(...)
if(!is.function(kernel.fun)){
kernel.fun <- function(...) {
extra.args <- list(...)
ans <- do.call(MASS::kde2d, extra.args)
output <- list(x = rep(ans$x, extra.args$n), y = rep(ans$y,
each = extra.args$n), z = as.vector(ans$z))
}
process.args <- unique(names(formals(MASS::kde2d)))
} else {
process.args <- unique(names(formals(kernel.fun)))
}
plot.args <- unique(names(formals(panel.loaLevelPlot)))
###################
#return safe.mode info
###################
if(loa.settings)
return(list(process.args = process.args,
plot.args = plot.args,
group.args = c("col"),
default.settings = list(key.fun = "draw.loaColorRegionsKey",
key.raster = TRUE,
isolate.col.regions = TRUE,
scheme="loa.scheme")))
###################
#process section
###################
if(process){
if(!is.null(z))
warning("z values supplied but ignored (frequency plot)", call. = FALSE)
temp <- length(x)
mylist <- list(x = x, y = y, n = n)
mylist <- listUpdate(mylist, extra.args, use = process.args)
if (panel.range & !"lims" %in% names(extra.args)) {
lims <- if("xlim" %in% names(extra.args) & "ylim" %in% names(extra.args))
list(xlim = extra.args$xlim, ylim = extra.args$ylim) else
current.panel.limits()
mylist$lims <- c(lims$xlim, lims$ylim)
}
kern.in <- do.call(kernel.fun, mylist)
if(local.wt)
kern.in$z <- (kern.in$z/sum(kern.in$z)) * temp
#this is from panel.surfaceSmooth
#there ghosts was make at start as list(x=x, y=y)
#here mylist has x and y unchanged... I think...
if (too.far > 0) {
ex.tf <- exclude.too.far(kern.in$x, kern.in$y, mylist$x,
mylist$y, dist = too.far)
kern.in$z[ex.tf] <- NA
}
if(!plot) return(kern.in)
} else {
kern.in <- list(x=x, y=y, z=z)
}
###########################
#plot section
###########################
if(plot){
if (!"subscripts" %in% names(kern.in))
kern.in$subscripts <- TRUE
extra.args <- listUpdate(extra.args, kern.in)
if (!"contour" %in% names(extra.args))
extra.args$contour <- TRUE
if (!"region" %in% names(extra.args))
extra.args$region <- TRUE
if (!"at" %in% names(extra.args))
extra.args$at <- pretty(extra.args$zlim)
#######################
#stuff below removed because
#I am now running this
#through panel.loaLevelPlot
#not panel.levelPlot
#######################
#might need to check
# temp <- length(extra.args$at)-1
## extra.args$col.regions <- do.call(colHandler,
## listUpdate(extra.args,
## list(z=1:temp, ref=1:temp, zlim=c(1,temp))))
# extra.args$col.regions <- colHandler(1:(length(extra.args$at) - 1), col.regions = extra.args$col.regions,
# alpha.regions = if(is.null(extra.args$alpha.regions)) extra.args$alpha else extra.args$alpha.regions,
# output = "col")
##colHandler(z=1:(length(temp)-1),
##col.regions=extra.args$col.regions)
##order matters
##when removing alpha terms
## $alpha gets $alpha...
# extra.args$alpha.regions <- NULL
#this col is currently kept to set
#contour col
if (!"col" %in% names(extra.args))
extra.args$col <- trellis.par.get("dot.symbol")$col
extra.args$col <- colHandler(1, col=extra.args$col, alpha.regions=extra.args$alpha)
# extra.args$alpha <- NULL
if("groups" %in% names(extra.args) || "zcases" %in% names(extra.args))
do.call(groupsAndZcasesPanelHandler, listUpdate(extra.args, list(panel = panel.loaLevelPlot, plot=plot, process=process))) else
do.call(panel.loaLevelPlot, extra.args)
}
}
#####################################
#####################################
##panel.binPlot
#####################################
#####################################
panel.binPlot <- function(x = NULL, y = NULL, z = NULL,
breaks=20, x.breaks = breaks, y.breaks = breaks,
x1=NULL, x2=NULL, y1=NULL, y2=NULL,
statistic = mean, pad.grid = FALSE, ...,
plot = TRUE, process = TRUE, loa.settings = FALSE
){
#groups is somehow
#working #######how?
#tidy pass to lpolygon
##border to track par.settings
##reset from par.settings if present
##does par.settings want to be in ignore?
#pass statistic
##to work on
#make cuts flexible
##check which other args need to be common
#what does this do about dropped levels
#when cutting?
#lim which is not plot range?
#an option for cuts that fit to range
if(loa.settings)
return(list(group.args= c("col"),
zcase.args= c("pch"),
common.args = c("breaks", "pad.grid", "x.breaks", "y.breaks", "statistics"),
default.settings = list(key.fun = "draw.loaColorKey", key.raster = TRUE,
x.elements = c("x", "x1", "x2"), isolate.col.regions = TRUE,
scheme="loa.scheme")))
extra.args <- list(...)
#process
if(process){
#x.bins
##this could be a function
##making a data.frame or list?
##then run again for y.bin
temp <- if("xlim" %in% names(extra.args))
extra.args$xlim else range(x)
x.cuts <- if(length(x.breaks)==1){
seq(min(temp), max(temp), length.out = (x.breaks + 1))
} else {
if(min(x.breaks) > min(temp)) temp <- c(min(temp), x.breaks)
if(min(x.breaks) < max(temp)) temp <- c(max(temp), x.breaks)
temp <- unique(sort(temp))
}
x.case <- cut(x, x.cuts)
x.1 <- x.cuts[-length(x.cuts)]
x.2 <- x.cuts[-1]
x.1.5 <- x.1 + ((x.2-x.1)/2)
#y.bins
temp <- if("ylim" %in% names(extra.args))
extra.args$ylim else range(y)
y.cuts <- if(length(y.breaks)==1){
seq(min(temp), max(temp), length.out = (y.breaks + 1))
} else {
if(min(y.breaks) > min(temp)) temp <- c(min(temp), y.breaks)
if(min(y.breaks) < max(temp)) temp <- c(max(temp), y.breaks)
temp <- unique(sort(temp))
}
y.case <- cut(y, y.cuts)
y.1 <- y.cuts[-length(y.cuts)]
y.2 <- y.cuts[-1]
y.1.5 <- y.1 + ((y.2-y.1)/2)
if(is.null(z)){
#if no z's set:
##need a dummy set
z <- rep(1, length=length(x))
##and only length is valid function
statistic = length
##also should warning that this happened
warning("no z values supplied; so binned as counts", call. = FALSE)
}
ans <- aggregate(z, data.frame(x.case,y.case), statistic)
ans <- na.omit(ans)
#think about this
#
temp <- ans$x.case
levels(temp) <- x.1.5
x <- as.numeric(as.character(temp))
levels(temp) <- x.1
x1 <- as.numeric(as.character(temp))
levels(temp) <- x.2
x2 <- as.numeric(as.character(temp))
temp <- ans$y.case
levels(temp) <- y.1.5
y <- as.numeric(as.character(temp))
levels(temp) <- y.1
y1 <- as.numeric(as.character(temp))
levels(temp) <- y.2
y2 <- as.numeric(as.character(temp))
z <- ans$x
#check position of pad grid for
#new bit re pad.grid
if(pad.grid){
#add in the NA cases if padded grid out fully
#might replace this with a drop or na.action option later?
test <- expand.grid(list(x=x.1.5, y=y.1.5))
test <- cbind(test, expand.grid(list(x1=x.1, y1=y.1)))
test <- cbind(test, expand.grid(list(x2=x.2, y2=y.2)))
ans <- data.frame(x=x, y=y,z=z)
ans <- merge(test, ans, all=TRUE)
x <- ans$x
y <- ans$y
z <- ans$z
x1 <- ans$x1
y1 <- ans$y1
x2 <- ans$x2
y2 <- ans$y2
}
#think about x1, x2, y1, y2
#do we need them?
if(!plot)
return(list(x=x, y=y, z=z, x1=x1, x2=x2, y1=y1, y2=y2))
}
#plot
if(plot){
######################
#new bit
######################
# temp <- listUpdate(extra.args, list(x=x, y=y, z=z, subscripts=1:length(x)))
# if(!"at" %in% names(temp))
# temp$at <- seq(min(temp$zlim), max(temp$zlim), length.out = 100)
# do.call(panel.levelplot, temp)
#################
############################
#replaced bit
############################
##warning if groups or zcases present
##and strip out before passing on
if(!"at" %in% names(extra.args))
extra.args$at <- seq(min(extra.args$zlim), max(extra.args$zlim), length.out=100)
#if not given
#col in boxes from col.regions
col <- do.call(colHandler, listUpdate(extra.args, list(z=z, ref=z), ignore="col"))
#border handling
#need to tidy this
# if(is.null(border)){
# if("col" %in% names(extra.args))
# border <- extra.args$col[1] else
# border <- FALSE
# }
#link into fault settings
#scheme, etc, see panel.polar... examples
#this gets col/alpha setting
#might need to rethink alpha/alpha.regions handling in colHander
if(is.null(extra.args$border) && "col" %in% names(extra.args))
extra.args$border <- do.call(colHandler,
listUpdate(extra.args, list(z=1, ref=1, zlim=c(1,1)),
ignore=c("col.regions", "alpha.regions")))
if(is.null(extra.args$border))
extra.args$border <- FALSE
#think about passing lty, etc.
#for border line properties
lrect(x1, y1, x2, y2, col=col, border=extra.args$border )#, alpha=extra.args$alpha)
# for(i in 1:length(x1)){
##this could be all panel.elements
##
# temp <- list(x = c(x1[i], x1[i], x2[i], x2[i]),
# y = c(y1[i], y2[i], y2[i], y1[i]),
# col = extra.args$col[i])
# temp <- listUpdate(extra.args[!names(extra.args) %in% c("x1", "x2", "y1", "y2")], temp)
#might not need all this
#track border
# temp <- listUpdate(extra.args, temp)
# do.call(lpolygon, temp)
# }
##################################
}
}
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