我正在尝试基于Group
变量item.map
编写代码,该变量具有包含q矩阵的项目信息,该q矩阵显示了哪个项目与哪个组相关联。
Group <- c(1,2,3,4)
item.map <- data.frame(
item.id = c(21,41,61,72),
group.1 = c(1,1,1,0),
group.2 = c(0,1,0,1),
group.3 = c(1,1,1,0),
group.4 = c(0,0,0,1))
> item.map
item.id group.1 group.2 group.3 group.4
1 21 1 0 1 0
2 41 1 1 1 0
3 61 1 0 1 0
4 72 0 1 0 1
在这个item.map
组中1有3个项目,而组2中有2个项目,group.3
有3个项目,group.4
有1个项目。在下面的代码块中分配这些项目,但我无法插入item.map
信息。
OUTPUT <- as.data.frame(c())
for(i in 1:length(item.map$item.id)) {
for(k in 0:(length(Group))) { # here with the length(State) I gained the sequqnece of 0,1,2,3
output <- paste0("Equal = ",paste0(paste("(", "G1, ",item.map$item.id[i], ","," Slope[",k,"])",collapse=", ", sep=""),", ",
paste( "(", "G2, ",item.map$item.id[i], ","," Slope[",k,"])",collapse=", ", sep=""),
";"))
OUTPUT <- c(OUTPUT, output)
}
}
[1] "Equal = (G1, 21, Slope[0]), (G2, 21, Slope[0]), (G3, 21, Slope[0]), (G4, 21, Slope[0]);"
[1] "Equal = (G1, 21, Slope[1]), (G2, 21, Slope[1]), (G3, 21, Slope[1]), (G4, 21, Slope[1]);"
[1] "Equal = (G1, 21, Slope[2]), (G2, 21, Slope[2]), (G3, 21, Slope[2]), (G4, 21, Slope[2]);"
[1] "Equal = (G1, 21, Slope[3]), (G2, 21, Slope[3]), (G3, 21, Slope[3]), (G4, 21, Slope[3]);"
[1] "Equal = (G1, 21, Slope[4]), (G2, 21, Slope[4]), (G3, 21, Slope[4]), (G4, 21, Slope[4]);"
[1] "Equal = (G1, 41, Slope[0]), (G2, 41, Slope[0]), (G3, 41, Slope[0]), (G4, 41, Slope[0]);"
[1] "Equal = (G1, 41, Slope[1]), (G2, 41, Slope[1]), (G3, 41, Slope[1]), (G4, 41, Slope[1]);"
[1] "Equal = (G1, 41, Slope[2]), (G2, 41, Slope[2]), (G3, 41, Slope[2]), (G4, 41, Slope[2]);"
[1] "Equal = (G1, 41, Slope[3]), (G2, 41, Slope[3]), (G3, 41, Slope[3]), (G4, 41, Slope[3]);"
[1] "Equal = (G1, 41, Slope[4]), (G2, 41, Slope[4]), (G3, 41, Slope[4]), (G4, 41, Slope[4]);"
[1] "Equal = (G1, 61, Slope[0]), (G2, 61, Slope[0]), (G3, 61, Slope[0]), (G4, 61, Slope[0]);"
[1] "Equal = (G1, 61, Slope[1]), (G2, 61, Slope[1]), (G3, 61, Slope[1]), (G4, 61, Slope[1]);"
[1] "Equal = (G1, 61, Slope[2]), (G2, 61, Slope[2]), (G3, 61, Slope[2]), (G4, 61, Slope[2]);"
[1] "Equal = (G1, 61, Slope[3]), (G2, 61, Slope[3]), (G3, 61, Slope[3]), (G4, 61, Slope[3]);"
[1] "Equal = (G1, 61, Slope[4]), (G2, 61, Slope[4]), (G3, 61, Slope[4]), (G4, 61, Slope[4]);"
[1] "Equal = (G1, 72, Slope[0]), (G2, 72, Slope[0]), (G3, 72, Slope[0]), (G4, 72, Slope[0]);"
[1] "Equal = (G1, 72, Slope[1]), (G2, 72, Slope[1]), (G3, 72, Slope[1]), (G4, 72, Slope[1]);"
[1] "Equal = (G1, 72, Slope[2]), (G2, 72, Slope[2]), (G3, 72, Slope[2]), (G4, 72, Slope[2]);"
[1] "Equal = (G1, 72, Slope[3]), (G2, 72, Slope[3]), (G3, 72, Slope[3]), (G4, 72, Slope[3]);"
[1] "Equal = (G1, 72, Slope[4]), (G2, 72, Slope[4]), (G3, 72, Slope[4]), (G4, 72, Slope[4]);"
因此,在所需的输出中,G1
在分组块中不应包含项72
,而G2不应具有项21
和61
信息。
另外,我无法在代码中对“ G1”和“ G2”进行排序。有没有一种方法可以将这两行结合为一个G1
,G2
,G3
和G4
呢?
output <- paste0("Equal = ",paste0(paste("(", "G1, ",item.map$item.id[i], ","," Slope[",k,"])",collapse=", ", sep=""),", ",
paste("(", "G2, ",item.map$item.id[i], ","," Slope[",k,"])",collapse=", ", sep=""),", ",
paste("(", "G3, ",item.map$item.id[i], ","," Slope[",k,"])",collapse=", ", sep=""),", ",
paste( "(", "G4, ",item.map$item.id[i], ","," Slope[",k,"])",collapse=", ", sep=""),
";"))
所需的输出是:
[1] "Equal = (G1, 21, Slope[0]), (G3, 21, Slope[0]);"
[1] "Equal = (G1, 21, Slope[1]), (G3, 21, Slope[1]);"
[1] "Equal = (G1, 21, Slope[2]), (G3, 21, Slope[2]);"
[1] "Equal = (G1, 21, Slope[3]), (G3, 21, Slope[3]);"
[1] "Equal = (G1, 21, Slope[4]), (G3, 21, Slope[4]);"
[1] "Equal = (G1, 41, Slope[0]), (G2, 41, Slope[0]), (G3, 41, Slope[0]);"
[1] "Equal = (G1, 41, Slope[1]), (G2, 41, Slope[1]), (G3, 41, Slope[1]);"
[1] "Equal = (G1, 41, Slope[2]), (G2, 41, Slope[2]), (G3, 41, Slope[2]);"
[1] "Equal = (G1, 41, Slope[3]), (G2, 41, Slope[3]), (G3, 41, Slope[3]);"
[1] "Equal = (G1, 41, Slope[4]), (G2, 41, Slope[4]), (G3, 41, Slope[4]);"
[1] "Equal = (G1, 61, Slope[0]), (G3, 61, Slope[0]);"
[1] "Equal = (G1, 61, Slope[1]), (G3, 61, Slope[1]);"
[1] "Equal = (G1, 61, Slope[2]), (G3, 61, Slope[2]);"
[1] "Equal = (G1, 61, Slope[3]), (G3, 61, Slope[3]);"
[1] "Equal = (G1, 61, Slope[4]), (G3, 61, Slope[4]);"
[1] "Equal = (G2, 72, Slope[0]), (G4, 72, Slope[0]);"
[1] "Equal = (G2, 72, Slope[1]), (G4, 72, Slope[1]);"
[1] "Equal = (G2, 72, Slope[2]), (G4, 72, Slope[2]);"
[1] "Equal = (G2, 72, Slope[3]), (G4, 72, Slope[3]);"
[1] "Equal = (G2, 72, Slope[4]), (G4, 72, Slope[4]);"
有人有什么想法吗? 谢谢
答案 0 :(得分:1)
这里是tidyverse
的一个选项,其中我们循环遍历“组”列名,select
将来自“ item.map”的列名放在list
中,rename
'G1','G2',然后根据逻辑组列执行crossing
扩展数据集filter
,使用glue_data
(来自grlue
)创建表达式,并flatten
list
到vector
library(dplyr)
library(purrr)
library(stringr)
out <- map(c('group.1', 'group.2'),
~ item.map %>%
select(item.id, .x) %>%
rename_at(.x, ~ str_c('G', str_remove(., "\\D+"))) %>%
crossing(k = 0:2) %>%
filter(across(starts_with('G'), as.logical)) %>%
glue::glue_data("Equal = ({names(.)[2]}, {item.id}, Slope[{k}]);")%>%
as.character) %>%
flatten_chr
-输出
out
#[1] "Equal = (G1, 21, Slope[0]);" "Equal = (G1, 21, Slope[1]);" "Equal = (G1, 21, Slope[2]);" "Equal = (G1, 41, Slope[0]);"
#[5] "Equal = (G1, 41, Slope[1]);" "Equal = (G1, 41, Slope[2]);" "Equal = (G1, 61, Slope[0]);" "Equal = (G1, 61, Slope[1]);"
#[9] "Equal = (G1, 61, Slope[2]);" "Equal = (G2, 41, Slope[0]);" "Equal = (G2, 41, Slope[1]);" "Equal = (G2, 41, Slope[2]);"
#[13] "Equal = (G2, 72, Slope[0]);" "Equal = (G2, 72, Slope[1]);" "Equal = (G2, 72, Slope[2]);"
如果我们希望将两个都是1的分组,
i1 <- ave(seq_along(out), sub("G\\d+", "", out), FUN = length)
out[i1 > 1] <- ave(out[i1 > 1], sub("Equal = \\(G\\d+", "", out[i1 > 1]),
FUN = function(x) {
x[1] <- sub(";", "", x[1])
paste(x[1], sub("Equal = ", "", x[2]), sep =", ")
})
out1 <- unique(out)
out1
#[1] "Equal = (G1, 21, Slope[0]);" "Equal = (G1, 21, Slope[1]);"
#[3] "Equal = (G1, 21, Slope[2]);" "Equal = (G1, 41, Slope[0]), (G2, 41, Slope[0]);"
#[5] "Equal = (G1, 41, Slope[1]), (G2, 41, Slope[1]);" "Equal = (G1, 41, Slope[2]), (G2, 41, Slope[2]);"
#[7] "Equal = (G1, 61, Slope[0]);" "Equal = (G1, 61, Slope[1]);"
#[9] "Equal = (G1, 61, Slope[2]);" "Equal = (G2, 72, Slope[0]);"
#[11] "Equal = (G2, 72, Slope[1]);" "Equal = (G2, 72, Slope[2]);"
使用更新的数据集
out <- map(c('group.1', 'group.2', 'group.3', 'group.4'),
~ item.map %>%
select(item.id, .x) %>%
rename_at(.x, ~ str_c('G', str_remove(., "\\D+"))) %>%
crossing(k = 0:4) %>%
filter(across(starts_with('G'), as.logical)) %>%
glue::glue_data("Equal = ({names(.)[2]}, {item.id}, Slope[{k}]);")%>%
as.character) %>%
flatten_chr
out[i1 > 1] <- ave(out[i1 > 1], sub("Equal = \\(G\\d+", "", out[i1 > 1]),
FUN = function(x) {
x[-length(x)] <- sub(";", "", x[-length(x)])
paste(x[1], paste(sub("Equal = ", "", x[-1]), collapse = ", "), sep=", ")
})
unique(out)
[1] "Equal = (G1, 21, Slope[0]), (G3, 21, Slope[0]);"
[2] "Equal = (G1, 21, Slope[1]), (G3, 21, Slope[1]);"
[3] "Equal = (G1, 21, Slope[2]), (G3, 21, Slope[2]);"
[4] "Equal = (G1, 21, Slope[3]), (G3, 21, Slope[3]);"
[5] "Equal = (G1, 21, Slope[4]), (G3, 21, Slope[4]);"
[6] "Equal = (G1, 41, Slope[0]), (G2, 41, Slope[0]), (G3, 41, Slope[0]);"
[7] "Equal = (G1, 41, Slope[1]), (G2, 41, Slope[1]), (G3, 41, Slope[1]);"
[8] "Equal = (G1, 41, Slope[2]), (G2, 41, Slope[2]), (G3, 41, Slope[2]);"
[9] "Equal = (G1, 41, Slope[3]), (G2, 41, Slope[3]), (G3, 41, Slope[3]);"
[10] "Equal = (G1, 41, Slope[4]), (G2, 41, Slope[4]), (G3, 41, Slope[4]);"
[11] "Equal = (G1, 61, Slope[0]), (G3, 61, Slope[0]);"
[12] "Equal = (G1, 61, Slope[1]), (G3, 61, Slope[1]);"
[13] "Equal = (G1, 61, Slope[2]), (G3, 61, Slope[2]);"
[14] "Equal = (G1, 61, Slope[3]), (G3, 61, Slope[3]);"
[15] "Equal = (G1, 61, Slope[4]), (G3, 61, Slope[4]);"
[16] "Equal = (G2, 72, Slope[0]), (G4, 72, Slope[0]);"
[17] "Equal = (G2, 72, Slope[1]), (G4, 72, Slope[1]);"
[18] "Equal = (G2, 72, Slope[2]), (G4, 72, Slope[2]);"
[19] "Equal = (G2, 72, Slope[3]), (G4, 72, Slope[3]);"
[20] "Equal = (G2, 72, Slope[4]), (G4, 72, Slope[4]);"
或者带有嵌套的for
循环
OUTPUT <- c()
# // loop over the sequence of rows
for(i in seq_len(nrow(item.map))) {
# // nested loop to expand on a sequence
for(k in 0:2) {
# // do a second nest based on the 'Group'
for(j in seq_along(Group)) {
# // create a logical expression based on the 'group' column
i1 <- as.logical(item.map[[paste0("group.", j)]][i])
# // if it is TRUE, then only do the below
if(i1) {
# // create the expression with paste
output <- paste0("Equal = ", paste("(", "G", j,
", ", item.map$item.id[i], ", Slope[", k, "])",
collapse=", ", sep=""))
# // concatenate the NULL vector with the temporary output
OUTPUT <- c(OUTPUT, output)
}
}
}
}