R/geom-point.r
In TomeTiger/ggplot2: Create Elegant Data Visualisations Using the Grammar of Graphics
Defines functions
geom_point
translate_shape_string
Documented in
geom_point
#' Points
#'
#' The point geom is used to create scatterplots. The scatterplot is most
#' useful for displaying the relationship between two continuous variables.
#' It can be used to compare one continuous and one categorical variable, or
#' two categorical variables, but a variation like [geom_jitter()],
#' [geom_count()], or [geom_bin2d()] is usually more
#' appropriate. A _bubblechart_ is a scatterplot with a third variable
#' mapped to the size of points.
#'
#' @section Overplotting:
#' The biggest potential problem with a scatterplot is overplotting: whenever
#' you have more than a few points, points may be plotted on top of one
#' another. This can severely distort the visual appearance of the plot.
#' There is no one solution to this problem, but there are some techniques
#' that can help. You can add additional information with
#' [geom_smooth()], [geom_quantile()] or
#' [geom_density_2d()]. If you have few unique `x` values,
#' [geom_boxplot()] may also be useful.
#'
#' Alternatively, you can
#' summarise the number of points at each location and display that in some
#' way, using [geom_count()], [geom_hex()], or
#' [geom_density2d()].
#'
#' Another technique is to make the points transparent (e.g.
#' `geom_point(alpha = 0.05)`) or very small (e.g.
#' `geom_point(shape = ".")`).
#'
#' @eval rd_aesthetics("geom", "point")
#' @inheritParams layer
#' @param na.rm If `FALSE`, the default, missing values are removed with
#' a warning. If `TRUE`, missing values are silently removed.
#' @param ... Other arguments passed on to [layer()]. These are
#' often aesthetics, used to set an aesthetic to a fixed value, like
#' `colour = "red"` or `size = 3`. They may also be parameters
#' to the paired geom/stat.
#' @inheritParams layer
#' @export
#' @examples
#' p <- ggplot(mtcars, aes(wt, mpg))
#' p + geom_point()
#'
#' # Add aesthetic mappings
#' p + geom_point(aes(colour = factor(cyl)))
#' p + geom_point(aes(shape = factor(cyl)))
#' # A "bubblechart":
#' p + geom_point(aes(size = qsec))
#'
#' # Set aesthetics to fixed value
#' ggplot(mtcars, aes(wt, mpg)) + geom_point(colour = "red", size = 3)
#'
#' \donttest{
#' # Varying alpha is useful for large datasets
#' d <- ggplot(diamonds, aes(carat, price))
#' d + geom_point(alpha = 1/10)
#' d + geom_point(alpha = 1/20)
#' d + geom_point(alpha = 1/100)
#' }
#'
#' # For shapes that have a border (like 21), you can colour the inside and
#' # outside separately. Use the stroke aesthetic to modify the width of the
#' # border
#' ggplot(mtcars, aes(wt, mpg)) +
#' geom_point(shape = 21, colour = "black", fill = "white", size = 5, stroke = 5)
#'
#' \donttest{
#' # You can create interesting shapes by layering multiple points of
#' # different sizes
#' p <- ggplot(mtcars, aes(mpg, wt, shape = factor(cyl)))
#' p + geom_point(aes(colour = factor(cyl)), size = 4) +
#' geom_point(colour = "grey90", size = 1.5)
#' p + geom_point(colour = "black", size = 4.5) +
#' geom_point(colour = "pink", size = 4) +
#' geom_point(aes(shape = factor(cyl)))
#'
#' # geom_point warns when missing values have been dropped from the data set
#' # and not plotted, you can turn this off by setting na.rm = TRUE
#' mtcars2 <- transform(mtcars, mpg = ifelse(runif(32) < 0.2, NA, mpg))
#' ggplot(mtcars2, aes(wt, mpg)) + geom_point()
#' ggplot(mtcars2, aes(wt, mpg)) + geom_point(na.rm = TRUE)
#' }
geom_point <- function(mapping = NULL, data = NULL,
stat = "identity", position = "identity",
...,
na.rm = FALSE,
show.legend = NA,
inherit.aes = TRUE) {
layer(
data = data,
mapping = mapping,
stat = stat,
geom = GeomPoint,
position = position,
show.legend = show.legend,
inherit.aes = inherit.aes,
params = list(
na.rm = na.rm,
...
)
)
}
#' @rdname ggplot2-ggproto
#' @format NULL
#' @usage NULL
#' @export
GeomPoint <- ggproto("GeomPoint", Geom,
required_aes = c("x", "y"),
non_missing_aes = c("size", "shape", "colour"),
default_aes = aes(
shape = 19, colour = "black", size = 1.5, fill = NA,
alpha = NA, stroke = 0.5
),
draw_panel = function(data, panel_params, coord, na.rm = FALSE) {
if (is.character(data$shape)) {
data$shape <- translate_shape_string(data$shape)
}
coords <- coord$transform(data, panel_params)
ggname("geom_point",
pointsGrob(
coords$x, coords$y,
pch = coords$shape,
gp = gpar(
col = alpha(coords$colour, coords$alpha),
fill = alpha(coords$fill, coords$alpha),
# Stroke is added around the outside of the point
fontsize = coords$size * .pt + coords$stroke * .stroke / 2,
lwd = coords$stroke * .stroke / 2
)
)
)
},
draw_key = draw_key_point
)
translate_shape_string <- function(shape_string) {
# strings of length 0 or 1 are interpreted as symbols by grid
if (nchar(shape_string[1]) <= 1) {
return(shape_string)
}
pch_table <- c(
"square open" = 0,
"circle open" = 1,
"triangle open" = 2,
"plus" = 3,
"cross" = 4,
"diamond open" = 5,
"triangle down open" = 6,
"square cross" = 7,
"asterisk" = 8,
"diamond plus" = 9,
"circle plus" = 10,
"star" = 11,
"square plus" = 12,
"circle cross" = 13,
"square triangle" = 14,
"triangle square" = 14,
"square" = 15,
"circle small" = 16,
"triangle" = 17,
"diamond" = 18,
"circle" = 19,
"bullet" = 20,
"circle filled" = 21,
"square filled" = 22,
"diamond filled" = 23,
"triangle filled" = 24,
"triangle down filled" = 25
)
shape_match <- charmatch(shape_string, names(pch_table))
invalid_strings <- is.na(shape_match)
nonunique_strings <- shape_match == 0
if (any(invalid_strings)) {
bad_string <- unique(shape_string[invalid_strings])
n_bad <- length(bad_string)
collapsed_names <- sprintf("\n* '%s'", bad_string[1:min(5, n_bad)])
more_problems <- if (n_bad > 5) {
sprintf("\n* ... and %d more problem%s", n_bad - 5, ifelse(n_bad > 6, "s", ""))
}
stop(
"Can't find shape name:",
collapsed_names,
more_problems,
call. = FALSE
)
}
if (any(nonunique_strings)) {
bad_string <- unique(shape_string[nonunique_strings])
n_bad <- length(bad_string)
n_matches <- vapply(
bad_string[1:min(5, n_bad)],
function(shape_string) sum(grepl(paste0("^", shape_string), names(pch_table))),
integer(1)
)
collapsed_names <- sprintf(
"\n* '%s' partially matches %d shape names",
bad_string[1:min(5, n_bad)], n_matches
)
more_problems <- if (n_bad > 5) {
sprintf("\n* ... and %d more problem%s", n_bad - 5, ifelse(n_bad > 6, "s", ""))
}
stop(
"Shape names must be unambiguous:",
collapsed_names,
more_problems,
call. = FALSE
)
}
unname(pch_table[shape_match])
}
TomeTiger/ggplot2 documentation built on May 29, 2019, 7:53 a.m.
R Package Documentation
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Defines functions geom_point translate_shape_string
Documented in geom_point
#' Points
#'
#' The point geom is used to create scatterplots. The scatterplot is most
#' useful for displaying the relationship between two continuous variables.
#' It can be used to compare one continuous and one categorical variable, or
#' two categorical variables, but a variation like [geom_jitter()],
#' [geom_count()], or [geom_bin2d()] is usually more
#' appropriate. A _bubblechart_ is a scatterplot with a third variable
#' mapped to the size of points.
#'
#' @section Overplotting:
#' The biggest potential problem with a scatterplot is overplotting: whenever
#' you have more than a few points, points may be plotted on top of one
#' another. This can severely distort the visual appearance of the plot.
#' There is no one solution to this problem, but there are some techniques
#' that can help. You can add additional information with
#' [geom_smooth()], [geom_quantile()] or
#' [geom_density_2d()]. If you have few unique `x` values,
#' [geom_boxplot()] may also be useful.
#'
#' Alternatively, you can
#' summarise the number of points at each location and display that in some
#' way, using [geom_count()], [geom_hex()], or
#' [geom_density2d()].
#'
#' Another technique is to make the points transparent (e.g.
#' `geom_point(alpha = 0.05)`) or very small (e.g.
#' `geom_point(shape = ".")`).
#'
#' @eval rd_aesthetics("geom", "point")
#' @inheritParams layer
#' @param na.rm If `FALSE`, the default, missing values are removed with
#' a warning. If `TRUE`, missing values are silently removed.
#' @param ... Other arguments passed on to [layer()]. These are
#' often aesthetics, used to set an aesthetic to a fixed value, like
#' `colour = "red"` or `size = 3`. They may also be parameters
#' to the paired geom/stat.
#' @inheritParams layer
#' @export
#' @examples
#' p <- ggplot(mtcars, aes(wt, mpg))
#' p + geom_point()
#'
#' # Add aesthetic mappings
#' p + geom_point(aes(colour = factor(cyl)))
#' p + geom_point(aes(shape = factor(cyl)))
#' # A "bubblechart":
#' p + geom_point(aes(size = qsec))
#'
#' # Set aesthetics to fixed value
#' ggplot(mtcars, aes(wt, mpg)) + geom_point(colour = "red", size = 3)
#'
#' \donttest{
#' # Varying alpha is useful for large datasets
#' d <- ggplot(diamonds, aes(carat, price))
#' d + geom_point(alpha = 1/10)
#' d + geom_point(alpha = 1/20)
#' d + geom_point(alpha = 1/100)
#' }
#'
#' # For shapes that have a border (like 21), you can colour the inside and
#' # outside separately. Use the stroke aesthetic to modify the width of the
#' # border
#' ggplot(mtcars, aes(wt, mpg)) +
#' geom_point(shape = 21, colour = "black", fill = "white", size = 5, stroke = 5)
#'
#' \donttest{
#' # You can create interesting shapes by layering multiple points of
#' # different sizes
#' p <- ggplot(mtcars, aes(mpg, wt, shape = factor(cyl)))
#' p + geom_point(aes(colour = factor(cyl)), size = 4) +
#' geom_point(colour = "grey90", size = 1.5)
#' p + geom_point(colour = "black", size = 4.5) +
#' geom_point(colour = "pink", size = 4) +
#' geom_point(aes(shape = factor(cyl)))
#'
#' # geom_point warns when missing values have been dropped from the data set
#' # and not plotted, you can turn this off by setting na.rm = TRUE
#' mtcars2 <- transform(mtcars, mpg = ifelse(runif(32) < 0.2, NA, mpg))
#' ggplot(mtcars2, aes(wt, mpg)) + geom_point()
#' ggplot(mtcars2, aes(wt, mpg)) + geom_point(na.rm = TRUE)
#' }
geom_point <- function(mapping = NULL, data = NULL,
stat = "identity", position = "identity",
...,
na.rm = FALSE,
show.legend = NA,
inherit.aes = TRUE) {
layer(
data = data,
mapping = mapping,
stat = stat,
geom = GeomPoint,
position = position,
show.legend = show.legend,
inherit.aes = inherit.aes,
params = list(
na.rm = na.rm,
...
)
)
}
#' @rdname ggplot2-ggproto
#' @format NULL
#' @usage NULL
#' @export
GeomPoint <- ggproto("GeomPoint", Geom,
required_aes = c("x", "y"),
non_missing_aes = c("size", "shape", "colour"),
default_aes = aes(
shape = 19, colour = "black", size = 1.5, fill = NA,
alpha = NA, stroke = 0.5
),
draw_panel = function(data, panel_params, coord, na.rm = FALSE) {
if (is.character(data$shape)) {
data$shape <- translate_shape_string(data$shape)
}
coords <- coord$transform(data, panel_params)
ggname("geom_point",
pointsGrob(
coords$x, coords$y,
pch = coords$shape,
gp = gpar(
col = alpha(coords$colour, coords$alpha),
fill = alpha(coords$fill, coords$alpha),
# Stroke is added around the outside of the point
fontsize = coords$size * .pt + coords$stroke * .stroke / 2,
lwd = coords$stroke * .stroke / 2
)
)
)
},
draw_key = draw_key_point
)
translate_shape_string <- function(shape_string) {
# strings of length 0 or 1 are interpreted as symbols by grid
if (nchar(shape_string[1]) <= 1) {
return(shape_string)
}
pch_table <- c(
"square open" = 0,
"circle open" = 1,
"triangle open" = 2,
"plus" = 3,
"cross" = 4,
"diamond open" = 5,
"triangle down open" = 6,
"square cross" = 7,
"asterisk" = 8,
"diamond plus" = 9,
"circle plus" = 10,
"star" = 11,
"square plus" = 12,
"circle cross" = 13,
"square triangle" = 14,
"triangle square" = 14,
"square" = 15,
"circle small" = 16,
"triangle" = 17,
"diamond" = 18,
"circle" = 19,
"bullet" = 20,
"circle filled" = 21,
"square filled" = 22,
"diamond filled" = 23,
"triangle filled" = 24,
"triangle down filled" = 25
)
shape_match <- charmatch(shape_string, names(pch_table))
invalid_strings <- is.na(shape_match)
nonunique_strings <- shape_match == 0
if (any(invalid_strings)) {
bad_string <- unique(shape_string[invalid_strings])
n_bad <- length(bad_string)
collapsed_names <- sprintf("\n* '%s'", bad_string[1:min(5, n_bad)])
more_problems <- if (n_bad > 5) {
sprintf("\n* ... and %d more problem%s", n_bad - 5, ifelse(n_bad > 6, "s", ""))
}
stop(
"Can't find shape name:",
collapsed_names,
more_problems,
call. = FALSE
)
}
if (any(nonunique_strings)) {
bad_string <- unique(shape_string[nonunique_strings])
n_bad <- length(bad_string)
n_matches <- vapply(
bad_string[1:min(5, n_bad)],
function(shape_string) sum(grepl(paste0("^", shape_string), names(pch_table))),
integer(1)
)
collapsed_names <- sprintf(
"\n* '%s' partially matches %d shape names",
bad_string[1:min(5, n_bad)], n_matches
)
more_problems <- if (n_bad > 5) {
sprintf("\n* ... and %d more problem%s", n_bad - 5, ifelse(n_bad > 6, "s", ""))
}
stop(
"Shape names must be unambiguous:",
collapsed_names,
more_problems,
call. = FALSE
)
}
unname(pch_table[shape_match])
}
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