我有一个这种格式的矩阵:
set.seed(1)
mat <- matrix(round(runif(25,0,1)),nrow=5,ncol=5)
colnames(mat) <- c("a1::C","a1::A","a1::B","b1::D","b1::A")
a1::C a1::A a1::B b1::D b1::A
[1,] 0 1 0 0 1
[2,] 0 1 0 1 0
[3,] 1 1 1 1 1
[4,] 1 1 0 0 0
[5,] 0 0 1 1 0
换句话说,每一列都是一个主题和一个特征(由列名表示,它们之间用::分隔)。在每一行中,值为 1 表示主题具有该特征,如果没有,则值为 0。对于特定行,某个主题的所有列中可能都有 0。
我想构建一个新矩阵,其中列将是主题(即每个主题一列),并且在行中,该主题具有的特征将按字母顺序排序并以昏迷分隔。如果某个主题没有任何特征(即,该主题的某一行全部为 0),则应使用值“W”(所有特征都没有值“W”)。
这是基于
mat 的新矩阵看起来像:cnames = unique(sapply(colnames(mat), function(x) strsplit(x,split="::")[[1]][1]))
new_mat <- matrix(c("A","A","A,B,C","A,C","B",
"A","D","A,D","W","D"),
nrow=nrow(mat),ncol=length(cnames))
colnames(new_mat) = cnames
a1 b1
[1,] "A" "A"
[2,] "A" "D"
[3,] "A,B,C" "A,D"
[4,] "A,C" "W"
[5,] "B" "D"
知道什么是实现这一目标的有效而优雅的方式吗?
最佳答案
第 1 步:矩阵列旋转
mat <- mat[, order(colnames(mat))]
# a1::A a1::B a1::C b1::A b1::D
# [1,] 1 0 0 1 0
# [2,] 1 0 0 0 1
# [3,] 1 1 1 1 1
# [4,] 1 0 1 0 0
# [5,] 0 1 0 0 1
步骤2.1:列名分解
## decompose levels, get main levels (before ::) and sub levels (post ::)
decom <- strsplit(colnames(mat), "::")
main_levels <- sapply(decom, "[", 1)
# [1] "a1" "a1" "a1" "b1" "b1"
sub_levels <- sapply(decom, "[", 2)
# [1] "A" "B" "C" "A" "D"
步骤 2.2:分组索引生成
## generating grouping index
main_index <- paste(rep(main_levels, each = nrow(mat)), rep(1:nrow(mat), times = ncol(mat)), sep = "#")
sub_index <- rep(sub_levels, each = nrow(mat))
sub_index[!as.logical(mat)] <- "" ## 0 values in mat implies ""
## in unclear of what "main_index" and "sub_index" are, check:
## matrix(main_index, nrow(mat))
# [,1] [,2] [,3] [,4] [,5]
# [1,] "a1#1" "a1#1" "a1#1" "b1#1" "b1#1"
# [2,] "a1#2" "a1#2" "a1#2" "b1#2" "b1#2"
# [3,] "a1#3" "a1#3" "a1#3" "b1#3" "b1#3"
# [4,] "a1#4" "a1#4" "a1#4" "b1#4" "b1#4"
# [5,] "a1#5" "a1#5" "a1#5" "b1#5" "b1#5"
## matrix(sub_index, nrow(mat))
# [,1] [,2] [,3] [,4] [,5]
# [1,] "A" "" "" "A" ""
# [2,] "A" "" "" "" "D"
# [3,] "A" "B" "C" "A" "D"
# [4,] "A" "" "C" "" ""
# [5,] "" "B" "" "" "D"
步骤 2.3:条件折叠粘贴
## collapsed paste of "sub_index" conditional on "main_index"
x <- unname(tapply(sub_index, main_index, paste0, collapse = ""))
x[x == ""] <- "W"
# [1] "A" "A" "ABC" "AC" "B" "A" "D" "AD" "W" "D"
第 3 步:后处理
我对此不太满意,但没有找到替代方案。
x <- sapply(strsplit(x, ""), paste0, collapse = ",")
# [1] "A" "A" "A,B,C" "A,C" "B" "A" "D" "A,D" "W" "D"
第 4 步:矩阵
x <- matrix(x, nrow = nrow(mat))
colnames(x) <- unique(main_levels)
# a1 b1
# [1,] "A" "A"
# [2,] "A" "D"
# [3,] "A,B,C" "A,D"
# [4,] "A,C" "W"
# [5,] "B" "D"
效率考量
该方法本身使用矢量化非常有效,并且不需要手动输入分组信息。例如,您可以使用相同的代码,即使您有数百个主组(之前::)和数百个子组(后::)。
唯一的考虑是减少不必要的内存副本。在这方面,我们应该尽可能使用匿名函数,而不是像上面演示的那样显式分配矩阵。这会很好(已经测试过):
decom <- strsplit(sort(colnames(mat)), "::")
main_levels <- sapply(decom, "[", 1)
sub_index <- rep(sapply(decom, "[", 2), each = nrow(mat))
sub_index[!as.logical(mat[, order(colnames(mat))])] <- ""
x <- unname(tapply(sub_index,
paste(rep(main_levels, each = nrow(mat)),
rep(1:nrow(mat), times = ncol(mat)),
sep = "#"),
paste0, collapse = ""))
x <- matrix(sapply(strsplit(x, ""), paste0, collapse = ","),
nrow = nrow(mat))
colnames(x) <- unique(main_levels)
关于r - 有效地折叠矩阵,我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/38022568/