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R/panel.3dmisc.R
In latticeExtra: Extra Graphical Utilities Based on Lattice
Defines functions
panel.3dtext
panel.3dpolygon
panel.3dbars
Documented in
panel.3dbars
panel.3dpolygon
panel.3dtext
## a panel function for cloud that draws "3d bar charts" which
## shouldn't be used except in unusual circumstances
panel.3dbars <-
function(x, y, z,
rot.mat = diag(4), distance,
xbase = 1, ybase = 1,
xlim, xlim.scaled,
ylim, ylim.scaled,
zlim, zlim.scaled,
zero.scaled,
col = "black",
lty = 1, lwd = 1,
alpha = 1,
...,
col.facet = "white",
alpha.facet = 1)
{
n <- length(z)
col <- rep(col, length = n)
col.facet <- rep(col.facet, length = n)
alpha <- rep(alpha, length = n)
alpha.facet <- rep(alpha.facet, length = n)
lty <- rep(lty, length = n)
lwd <- rep(lwd, length = n)
id <-
((x >= xlim.scaled[1]) & (x <= xlim.scaled[2]) &
(y >= ylim.scaled[1]) & (y <= ylim.scaled[2]) &
!is.na(x) & !is.na(y) & !is.na(z))
m <- ltransform3dto3d(rbind(x, y, 0), rot.mat, distance)
ord <- sort.list(m[3,])
ord <- ord[id[ord]]
zero.scaled <-
if (zero.scaled < zlim.scaled[1]) zlim.scaled[1]
else if (zero.scaled > zlim.scaled[2]) zlim.scaled[2]
else zero.scaled
inRange <- function(x, lim)
{
rng <- range(x, finite = TRUE)
rng[1] >= min(lim) && rng[2] <= max(lim)
}
## draw bars one by one
for (i in ord)
{
## print(i)
xbase.scaled <- diff(xlim.scaled) * xbase / diff(xlim)
ybase.scaled <- diff(ylim.scaled) * ybase / diff(ylim)
zz.sides <- matrix(c(zero.scaled, z[i]), 2, 1)[, rep(1, 5)]
xx.sides <-
c(x[i], x[i]) + xbase.scaled * 0.5 *
rbind(c(-1, 1, 1, -1, -1), c(-1, 1, 1, -1, -1))
yy.sides <-
c(y[i], y[i]) + ybase.scaled * 0.5 *
rbind(c(-1, -1, 1, 1, -1), c(-1, -1, 1, 1, -1))
zz.top <- matrix(z[i], 2, 2)
xx.top <-
c(x[i], x[i]) + xbase.scaled * 0.5 *
rbind(c(-1, 1), c(-1, 1))
yy.top <-
c(y[i], y[i]) + ybase.scaled * 0.5 *
rbind(c(-1, -1), c(1, 1))
zz <- cbind(zz.sides, c(NA, NA), zz.top)
xx <- cbind(xx.sides, c(NA, NA), xx.top)
yy <- cbind(yy.sides, c(NA, NA), yy.top)
## str(list(xx, yy, zz))
if (inRange(xx, xlim.scaled) &&
inRange(yy, ylim.scaled) &&
inRange(zz, zlim.scaled))
{
panel.3dwire(xx, yy, zz,
rot.mat = rot.mat, distance = distance,
xlim = xlim, xlim.scaled = xlim.scaled,
ylim = ylim, ylim.scaled = ylim.scaled,
zlim = zlim, zlim.scaled = zlim.scaled,
col = col[i], lty = lty[i], lwd = lwd[i],
alpha = alpha[i],
...,
at = c(0, 1), # dummy
col.regions = col.facet[i],
alpha.regions = alpha.facet[i])
}
}
}
## panel.3dpolygon <-
## function(x, y, z, rot.mat = diag(4), distance,
## type = 'p',
## xlim.scaled,
## ylim.scaled,
## zlim.scaled,
## zero.scaled,
## col = "white",
## border = "black",
## lty = 1, lwd = 1,
## min.sides = 3,
## ...,
## subscripts = TRUE)
## {
## m <- ltransform3dto3d(rbind(x, y, z), rot.mat, distance)
## ## ord <- sort.list(m[3,])
## n <- ncol(m)
## w <- which(is.na(x) | is.na(y))
## id.lengths <- diff(c(0, w, n))
## cum.lengths <- c(0, cumsum(id.lengths))
## idlist <-
## lapply(seq_along(id.lengths),
## function(i) {
## ind <- seq_len(id.lengths[i]) + cum.lengths[i]
## ind[-id.lengths[i]]
## })
## ord <-
## order(sapply(idlist,
## function(ind) {
## min(m[3, ind])
## }))
## for (ind in idlist[ord])
## {
## if (length(ind) >= min.sides)
## panel.polygon(x = m[1, ind], y = m[2, ind],
## col = col, border = border)
## }
## }
panel.3dpolygon <-
function(x, y, z, rot.mat = diag(4), distance,
xlim.scaled,
ylim.scaled,
zlim.scaled,
zero.scaled,
col = "white",
border = "black",
## min.sides = 3,
font, fontface, ## gpar() doesn't like these
...)
{
if (all(is.na(x) | is.na(y) | is.na(z))) return()
border <-
if (all(is.na(border)))
"transparent"
else if (is.logical(border))
{
if (border) "black"
else "transparent"
}
else border
m <- ltransform3dto3d(rbind(x, y, z), rot.mat, distance)
## ord <- sort.list(m[3,])
n <- ncol(m)
w <- which(is.na(x) | is.na(y))
id.lengths <- diff(c(0, w, n))
## need to reorder multiple polygons by some measure of "average" depth
id.long <- rep(seq_along(id.lengths), id.lengths)
ord.depth <- order(tapply(m[3,], id.long, min, na.rm = TRUE))
id.ordered <- ord.depth[id.long]
ord.long <- order(id.ordered)
grid.polygon(x = m[1, ord.long], y = m[2, ord.long],
id = id.ordered[ord.long],
default.units = "native",
gp =
gpar(fill = col,
col = border,
...))
## print(data.frame(x = m[1, ord.long],
## y = m[2, ord.long],
## id = id.ordered[ord.long]))
return()
}
panel.3dtext <-
function(x, y, z, labels = seq_along(x),
rot.mat = diag(4), distance, ...)
{
if (all(is.na(x) | is.na(y) | is.na(z))) return()
m <- ltransform3dto3d(rbind(x, y, z), rot.mat, distance)
ord <- sort.list(m[3,])
panel.text(x = m[1, ord], y = m[2, ord], labels = labels, ...)
}
## d <- data.frame(x = rnorm(10),
## y = rnorm(10),
## z = rnorm(10))
## rownames(d) <- letters[1:10]
## cloud(z ~ x * y, d, panel.3d.cloud = panel.3dtext)
## cloud(z ~ x * y, d, panel.3d.cloud = panel.3dtext,
## labels = rownames(d), col = "red")
## ## for multipanel plots
## cloud(z ~ x * y, d,
## panel.3d.cloud = function(..., subscripts) {
## panel.3dtext(..., labels = rownames(d)[subscripts])
## })
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Defines functions panel.3dtext panel.3dpolygon panel.3dbars
Documented in panel.3dbars panel.3dpolygon panel.3dtext
## a panel function for cloud that draws "3d bar charts" which
## shouldn't be used except in unusual circumstances
panel.3dbars <-
function(x, y, z,
rot.mat = diag(4), distance,
xbase = 1, ybase = 1,
xlim, xlim.scaled,
ylim, ylim.scaled,
zlim, zlim.scaled,
zero.scaled,
col = "black",
lty = 1, lwd = 1,
alpha = 1,
...,
col.facet = "white",
alpha.facet = 1)
{
n <- length(z)
col <- rep(col, length = n)
col.facet <- rep(col.facet, length = n)
alpha <- rep(alpha, length = n)
alpha.facet <- rep(alpha.facet, length = n)
lty <- rep(lty, length = n)
lwd <- rep(lwd, length = n)
id <-
((x >= xlim.scaled[1]) & (x <= xlim.scaled[2]) &
(y >= ylim.scaled[1]) & (y <= ylim.scaled[2]) &
!is.na(x) & !is.na(y) & !is.na(z))
m <- ltransform3dto3d(rbind(x, y, 0), rot.mat, distance)
ord <- sort.list(m[3,])
ord <- ord[id[ord]]
zero.scaled <-
if (zero.scaled < zlim.scaled[1]) zlim.scaled[1]
else if (zero.scaled > zlim.scaled[2]) zlim.scaled[2]
else zero.scaled
inRange <- function(x, lim)
{
rng <- range(x, finite = TRUE)
rng[1] >= min(lim) && rng[2] <= max(lim)
}
## draw bars one by one
for (i in ord)
{
## print(i)
xbase.scaled <- diff(xlim.scaled) * xbase / diff(xlim)
ybase.scaled <- diff(ylim.scaled) * ybase / diff(ylim)
zz.sides <- matrix(c(zero.scaled, z[i]), 2, 1)[, rep(1, 5)]
xx.sides <-
c(x[i], x[i]) + xbase.scaled * 0.5 *
rbind(c(-1, 1, 1, -1, -1), c(-1, 1, 1, -1, -1))
yy.sides <-
c(y[i], y[i]) + ybase.scaled * 0.5 *
rbind(c(-1, -1, 1, 1, -1), c(-1, -1, 1, 1, -1))
zz.top <- matrix(z[i], 2, 2)
xx.top <-
c(x[i], x[i]) + xbase.scaled * 0.5 *
rbind(c(-1, 1), c(-1, 1))
yy.top <-
c(y[i], y[i]) + ybase.scaled * 0.5 *
rbind(c(-1, -1), c(1, 1))
zz <- cbind(zz.sides, c(NA, NA), zz.top)
xx <- cbind(xx.sides, c(NA, NA), xx.top)
yy <- cbind(yy.sides, c(NA, NA), yy.top)
## str(list(xx, yy, zz))
if (inRange(xx, xlim.scaled) &&
inRange(yy, ylim.scaled) &&
inRange(zz, zlim.scaled))
{
panel.3dwire(xx, yy, zz,
rot.mat = rot.mat, distance = distance,
xlim = xlim, xlim.scaled = xlim.scaled,
ylim = ylim, ylim.scaled = ylim.scaled,
zlim = zlim, zlim.scaled = zlim.scaled,
col = col[i], lty = lty[i], lwd = lwd[i],
alpha = alpha[i],
...,
at = c(0, 1), # dummy
col.regions = col.facet[i],
alpha.regions = alpha.facet[i])
}
}
}
## panel.3dpolygon <-
## function(x, y, z, rot.mat = diag(4), distance,
## type = 'p',
## xlim.scaled,
## ylim.scaled,
## zlim.scaled,
## zero.scaled,
## col = "white",
## border = "black",
## lty = 1, lwd = 1,
## min.sides = 3,
## ...,
## subscripts = TRUE)
## {
## m <- ltransform3dto3d(rbind(x, y, z), rot.mat, distance)
## ## ord <- sort.list(m[3,])
## n <- ncol(m)
## w <- which(is.na(x) | is.na(y))
## id.lengths <- diff(c(0, w, n))
## cum.lengths <- c(0, cumsum(id.lengths))
## idlist <-
## lapply(seq_along(id.lengths),
## function(i) {
## ind <- seq_len(id.lengths[i]) + cum.lengths[i]
## ind[-id.lengths[i]]
## })
## ord <-
## order(sapply(idlist,
## function(ind) {
## min(m[3, ind])
## }))
## for (ind in idlist[ord])
## {
## if (length(ind) >= min.sides)
## panel.polygon(x = m[1, ind], y = m[2, ind],
## col = col, border = border)
## }
## }
panel.3dpolygon <-
function(x, y, z, rot.mat = diag(4), distance,
xlim.scaled,
ylim.scaled,
zlim.scaled,
zero.scaled,
col = "white",
border = "black",
## min.sides = 3,
font, fontface, ## gpar() doesn't like these
...)
{
if (all(is.na(x) | is.na(y) | is.na(z))) return()
border <-
if (all(is.na(border)))
"transparent"
else if (is.logical(border))
{
if (border) "black"
else "transparent"
}
else border
m <- ltransform3dto3d(rbind(x, y, z), rot.mat, distance)
## ord <- sort.list(m[3,])
n <- ncol(m)
w <- which(is.na(x) | is.na(y))
id.lengths <- diff(c(0, w, n))
## need to reorder multiple polygons by some measure of "average" depth
id.long <- rep(seq_along(id.lengths), id.lengths)
ord.depth <- order(tapply(m[3,], id.long, min, na.rm = TRUE))
id.ordered <- ord.depth[id.long]
ord.long <- order(id.ordered)
grid.polygon(x = m[1, ord.long], y = m[2, ord.long],
id = id.ordered[ord.long],
default.units = "native",
gp =
gpar(fill = col,
col = border,
...))
## print(data.frame(x = m[1, ord.long],
## y = m[2, ord.long],
## id = id.ordered[ord.long]))
return()
}
panel.3dtext <-
function(x, y, z, labels = seq_along(x),
rot.mat = diag(4), distance, ...)
{
if (all(is.na(x) | is.na(y) | is.na(z))) return()
m <- ltransform3dto3d(rbind(x, y, z), rot.mat, distance)
ord <- sort.list(m[3,])
panel.text(x = m[1, ord], y = m[2, ord], labels = labels, ...)
}
## d <- data.frame(x = rnorm(10),
## y = rnorm(10),
## z = rnorm(10))
## rownames(d) <- letters[1:10]
## cloud(z ~ x * y, d, panel.3d.cloud = panel.3dtext)
## cloud(z ~ x * y, d, panel.3d.cloud = panel.3dtext,
## labels = rownames(d), col = "red")
## ## for multipanel plots
## cloud(z ~ x * y, d,
## panel.3d.cloud = function(..., subscripts) {
## panel.3dtext(..., labels = rownames(d)[subscripts])
## })
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