参考:
效果图:
每一个分组画出一半小提琴图
, 放一起。
列举了三种方法:
-
geom_ploygon
: 画出密度多边形 (难度:**) -
gghalves
画出half 效果(难度:*) -
geom
图层语法 (难度:***)
实践
模拟数据
set.seed(20160229)
my_data = data.frame(
y=c(rnorm(1000), rnorm(1000, 0.5), rnorm(1000, 1), rnorm(1000, 1.5)),
x=c(rep('a', 2000), rep('b', 2000)),
m=c(rep('i', 1000), rep('j', 2000), rep('i', 1000))
)
方法1 geom_ploygon
library(dplyr)
pdat <- my_data %>%
group_by(x, m) %>% summarise(loc=density(.$y)$x,
dens=density(.$y)$y)
pdat$dens <- ifelse(pdat$m == 'i', pdat$dens * -1, pdat$dens)
pdat$dens <- ifelse(pdat$x == 'b', pdat$dens + 1, pdat$dens)
ggplot(pdat, aes(dens, loc, fill = m, group = interaction(m, x))) +
geom_polygon() +
scale_x_continuous(breaks = 0:1, labels = c('a', 'b')) +
ylab('density') +
theme_minimal() +
theme(axis.title.x = element_blank())
方法2 gghalves
library(gghalves)
ggplot(iris, aes(x = Species, y = Sepal.Width)) +
geom_half_point()+
geom_point()
head(my_data)
ggplot()+
geom_half_violin(data=my_data %>% filter(x=="a" & m=="i"),
aes(x=x,y=y,fill=m) ,side = "l")+
geom_half_violin(data=my_data %>% filter(x=="a" & m=="j"),
aes(x=x,y=y,fill=m) ,side = "r")+
geom_half_violin(data=my_data %>% filter(x=="b" & m=="i"),
aes(x=x,y=y,fill=m) ,side = "l")+
geom_half_violin(data=my_data %>% filter(x=="b" & m=="j"),
aes(x=x,y=y,fill=m) ,side = "r")+
theme_classic()
方法3 geom
GeomSplitViolin <- ggproto("GeomSplitViolin", GeomViolin,
draw_group = function(self, data, ..., draw_quantiles = NULL) {
data <- transform(data, xminv = x - violinwidth * (x - xmin), xmaxv = x + violinwidth * (xmax - x))
grp <- data[1, "group"]
newdata <- plyr::arrange(transform(data, x = if (grp %% 2 == 1) xminv else xmaxv), if (grp %% 2 == 1) y else -y)
newdata <- rbind(newdata[1, ], newdata, newdata[nrow(newdata), ], newdata[1, ])
newdata[c(1, nrow(newdata) - 1, nrow(newdata)), "x"] <- round(newdata[1, "x"])
if (length(draw_quantiles) > 0 & !scales::zero_range(range(data$y))) {
stopifnot(all(draw_quantiles >= 0), all(draw_quantiles <=
1))
quantiles <- ggplot2:::create_quantile_segment_frame(data, draw_quantiles)
aesthetics <- data[rep(1, nrow(quantiles)), setdiff(names(data), c("x", "y")), drop = FALSE]
aesthetics$alpha <- rep(1, nrow(quantiles))
both <- cbind(quantiles, aesthetics)
quantile_grob <- GeomPath$draw_panel(both, ...)
ggplot2:::ggname("geom_split_violin", grid::grobTree(GeomPolygon$draw_panel(newdata, ...), quantile_grob))
}
else {
ggplot2:::ggname("geom_split_violin", GeomPolygon$draw_panel(newdata, ...))
}
})
geom_split_violin <- function(mapping = NULL, data = NULL, stat = "ydensity", position = "identity", ...,
draw_quantiles = NULL, trim = TRUE, scale = "area", na.rm = FALSE,
show.legend = NA, inherit.aes = TRUE) {
layer(data = data, mapping = mapping, stat = stat, geom = GeomSplitViolin,
position = position, show.legend = show.legend, inherit.aes = inherit.aes,
params = list(trim = trim, scale = scale, draw_quantiles = draw_quantiles, na.rm = na.rm, ...))
}
ggplot(my_data, aes(x, y, fill = m)) + geom_split_violin()
Tips
-
gl
函数:因子生成函数 -
interaction
函数:因子组合函数,有点类似expand.grid
函数功能。
# a <- gl(2, 4, 8)
# b <- gl(2, 2, 8, labels = c("ctrl", "treat"))
# s <- gl(2, 1, 8, labels = c("M", "F"))
# interaction(a, b) 因子组合函数
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