我有以下資料集,其中列中有固定識別符號,列中id_isin有一系列協變數(特征)covariate。由于在多個時間段觀察到每個協變數,因此資料集采用寬格式。它們按列(y2010到y2020)進行組織。我報告forSO下面呼叫的輸入資料:
library(data.table)
forSO = fread("~/Desktop/forSO.csv")
forSO
#> id_isin covariate y2010 y2011 y2012
#> 1: ZAE000255915 NET INC BEFORE_EXTRA/PFDDIVS 8118000.0 9674000.0 8.3930e 06
#> 2: ZAE000255915 OPERATING INCOME 11756000.0 14134000.0 1.2266e 07
#> 3: ZAE000255915 RETURN ON ASSETS 2.5 2.3 1.7800e 00
#> 4: ZAE000198289 NET INC BEFORE EXTRA/PFD DIVS NA NA NA
#> 5: ZAE000198289 OPERATING INCOME NA NA NA
#> 6: ZAE000198289 RETURN ON ASSETS NA NA NA
#> y2013 y2014 y2015 y2016 y2017 y2018
#> 1: 1.1981e 07 1.3216e 07 14331000 14708000.00 13823000.00 13917000.00
#> 2: 1.7975e 07 1.9921e 07 21227000 22210000.00 21329000.00 21772000.00
#> 3: 1.8400e 00 1.9300e 00 2 2.06 2.01 1.91
#> 4: NA NA 40811 559094.00 786806.00 814462.00
#> 5: NA NA 48190 233141.00 299230.00 307252.00
#> 6: NA NA NA 10.84 12.86 11.76
#> y2019 y2020
#> 1: 14256000.00 5880000.00
#> 2: 21820000.00 10765000.00
#> 3: 1.87 1.09
#> 4: 920734.00 485423.00
#> 5: 368575.00 326465.00
#> 6: 11.24 5.57
由reprex 包(v2.0.1)于 2021 年 12 月 21 日創建
我想將資料集轉置為面板資料結構,如下所示:
library(data.table)
output = fread("~/Desktop/minimal.csv")
output
#> id_isin year NET INC BEFORE_EXTRA/PFDDIVS OPERATING INCOME
#> 1: ZAE000255915 2010 8118000 11756000
#> 2: ZAE000255915 2011 9674000 14134000
#> 3: ZAE000255915 2012 8393000 12266000
#> 4: ZAE000255915 2013 11981000 17975000
#> 5: ZAE000255915 2014 13216000 19921000
#> 6: ZAE000255915 2015 14331000 21227000
#> 7: ZAE000255915 2016 14708000 22210000
#> 8: ZAE000255915 2017 13823000 21329000
#> 9: ZAE000255915 2018 13917000 21772000
#> 10: ZAE000255915 2019 14256000 21820000
#> 11: ZAE000255915 2020 5880000 10765000
#> 12: ZAE000198289 2010 NA NA
#> 13: ZAE000198289 2011 NA NA
#> 14: ZAE000198289 2012 NA NA
#> 15: ZAE000198289 2013 NA NA
#> 16: ZAE000198289 2014 NA NA
#> 17: ZAE000198289 2015 40811 48190
#> 18: ZAE000198289 2016 559094 233141
#> 19: ZAE000198289 2017 786806 299230
#> 20: ZAE000198289 2018 814462 307252
#> 21: ZAE000198289 2019 920734 368575
#> 22: ZAE000198289 2020 485423 326465
#> id_isin year NET INC BEFORE_EXTRA/PFDDIVS OPERATING INCOME
#> RETURN ON ASSETS
#> 1: 2.50
#> 2: 2.30
#> 3: 1.78
#> 4: 1.84
#> 5: 1.93
#> 6: 2.00
#> 7: 2.06
#> 8: 2.01
#> 9: 1.91
#> 10: 1.87
#> 11: 1.09
#> 12: NA
#> 13: NA
#> 14: NA
#> 15: NA
#> 16: NA
#> 17: NA
#> 18: 10.84
#> 19: 12.86
#> 20: 11.76
#> 21: 11.24
#> 22: 5.57
#> RETURN ON ASSETS
由reprex 包(v2.0.1)于 2021 年 12 月 21 日創建
請在下面找到要在 R 中匯入的兩個資料集。
任何建議表示贊賞!
輸入資料集
structure(list(id_isin = c("ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000198289", "ZAE000198289", "ZAE000198289"),
covariate = c("NET INC BEFORE_EXTRA/PFDDIVS",
"OPERATING INCOME", "RETURN ON ASSETS", "NET INC BEFORE EXTRA/PFD DIVS",
"OPERATING INCOME", "RETURN ON ASSETS"),
y2010 = c(8118000, 11756000, 2.5, NA, NA, NA),
y2011 = c(9674000, 14134000, 2.3, NA, NA, NA),
y2012 = c(8393000, 12266000, 1.78, NA, NA, NA),
y2013 = c(11981000, 17975000, 1.84, NA, NA, NA),
y2014 = c(13216000, 19921000, 1.93, NA, NA, NA),
y2015 = c(14331000L, 21227000L, 2L, 40811L, 48190L, NA),
y2016 = c(14708000, 22210000, 2.06, 559094, 233141, 10.84),
y2017 = c(13823000, 21329000, 2.01, 786806, 299230, 12.86),
y2018 = c(13917000, 21772000, 1.91, 814462, 307252, 11.76),
y2019 = c(14256000, 21820000, 1.87, 920734, 368575, 11.24),
y2020 = c(5880000, 10765000, 1.09, 485423, 326465, 5.57)),
row.names = c(NA, -6L), class = c("data.table", "data.frame" ))
期望的結果
structure(list(id_isin = c("ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000255915", "ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000255915", "ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000198289", "ZAE000198289", "ZAE000198289", "ZAE000198289",
"ZAE000198289", "ZAE000198289", "ZAE000198289", "ZAE000198289",
"ZAE000198289", "ZAE000198289", "ZAE000198289"),
year = c(2010L,
2011L, 2012L, 2013L, 2014L, 2015L, 2016L, 2017L, 2018L, 2019L,
2020L, 2010L, 2011L, 2012L, 2013L, 2014L, 2015L, 2016L, 2017L,
2018L, 2019L, 2020L),
`NET INC BEFORE_EXTRA/PFDDIVS` = c(8118000L,
9674000L, 8393000L, 11981000L, 13216000L, 14331000L, 14708000L,
13823000L, 13917000L, 14256000L, 5880000L, NA, NA, NA, NA, NA,
40811L, 559094L, 786806L, 814462L, 920734L, 485423L),
`OPERATING INCOME` = c(11756000L,
14134000L, 12266000L, 17975000L, 19921000L, 21227000L, 22210000L,
21329000L, 21772000L, 21820000L, 10765000L, NA, NA, NA, NA, NA,
48190L, 233141L, 299230L, 307252L, 368575L, 326465L),
`RETURN ON ASSETS` = c(2.5,
2.3, 1.78, 1.84, 1.93, 2, 2.06, 2.01, 1.91, 1.87, 1.09, NA, NA,
NA, NA, NA, NA, 10.84, 12.86, 11.76, 11.24, 5.57)),
row.names = c(NA, -22L), class = c("data.table", "data.frame"))
uj5u.com熱心網友回復:
這應該讓你開始:
x <- structure(list(id_isin = c("ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000198289", "ZAE000198289", "ZAE000198289"),
covariate = c("NET INC BEFORE_EXTRA/PFDDIVS",
"OPERATING INCOME", "RETURN ON ASSETS", "NET INC BEFORE EXTRA/PFD DIVS",
"OPERATING INCOME", "RETURN ON ASSETS"),
y2010 = c(8118000, 11756000, 2.5, NA, NA, NA),
y2011 = c(9674000, 14134000, 2.3, NA, NA, NA),
y2012 = c(8393000, 12266000, 1.78, NA, NA, NA),
y2013 = c(11981000, 17975000, 1.84, NA, NA, NA),
y2014 = c(13216000, 19921000, 1.93, NA, NA, NA),
y2015 = c(14331000L, 21227000L, 2L, 40811L, 48190L, NA),
y2016 = c(14708000, 22210000, 2.06, 559094, 233141, 10.84),
y2017 = c(13823000, 21329000, 2.01, 786806, 299230, 12.86),
y2018 = c(13917000, 21772000, 1.91, 814462, 307252, 11.76),
y2019 = c(14256000, 21820000, 1.87, 920734, 368575, 11.24),
y2020 = c(5880000, 10765000, 1.09, 485423, 326465, 5.57)),
row.names = c(NA, -6L), class = c("data.table", "data.frame" ))
library(tidyr)
x %>%
pivot_longer(-c(id_isin, covariate) ) %>%
pivot_wider(names_from = "covariate") %>%
mutate(year = as.numeric(stringr::str_remove(name, "y")))%>%
select(id_isin, year, `NET INC BEFORE_EXTRA/PFDDIVS`, `OPERATING INCOME`)
這給了我們以下內容:
# A tibble: 22 × 4
id_isin year `NET INC BEFORE_EXTRA/PFDDIVS` `OPERATING INCOME`
<chr> <dbl> <dbl> <dbl>
1 ZAE000255915 2010 8118000 11756000
2 ZAE000255915 2011 9674000 14134000
3 ZAE000255915 2012 8393000 12266000
4 ZAE000255915 2013 11981000 17975000
uj5u.com熱心網友回復:
這應該可以解決問題:
library(tidyverse)
df <- structure(list(id_isin = c("ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000198289", "ZAE000198289", "ZAE000198289"),
covariate = c("NET INC BEFORE_EXTRA/PFDDIVS",
"OPERATING INCOME", "RETURN ON ASSETS", "NET INC BEFORE EXTRA/PFD DIVS",
"OPERATING INCOME", "RETURN ON ASSETS"),
y2010 = c(8118000, 11756000, 2.5, NA, NA, NA),
y2011 = c(9674000, 14134000, 2.3, NA, NA, NA),
y2012 = c(8393000, 12266000, 1.78, NA, NA, NA),
y2013 = c(11981000, 17975000, 1.84, NA, NA, NA),
y2014 = c(13216000, 19921000, 1.93, NA, NA, NA),
y2015 = c(14331000L, 21227000L, 2L, 40811L, 48190L, NA),
y2016 = c(14708000, 22210000, 2.06, 559094, 233141, 10.84),
y2017 = c(13823000, 21329000, 2.01, 786806, 299230, 12.86),
y2018 = c(13917000, 21772000, 1.91, 814462, 307252, 11.76),
y2019 = c(14256000, 21820000, 1.87, 920734, 368575, 11.24),
y2020 = c(5880000, 10765000, 1.09, 485423, 326465, 5.57)),
row.names = c(NA, -6L), class = c("data.table", "data.frame" ))
df %>%
pivot_longer(cols = c(paste("y",2010:2020,sep = "")), names_to = "year", values_to = "HHA") %>%
pivot_wider(names_from = "covariate", values_from = "HHA") %>%
mutate(`NET INC BEFORE_EXTRA/PFDDIVS` = coalesce(`NET INC BEFORE_EXTRA/PFDDIVS`,`NET INC BEFORE EXTRA/PFD DIVS`),
year = str_remove(year, "y")) %>%
select(-`NET INC BEFORE EXTRA/PFD DIVS`)
輸出:
# A tibble: 22 x 5
id_isin year `NET INC BEFORE_EXTRA/PFDDIVS` `OPERATING INCOME` `RETURN ON ASSETS`
<chr> <chr> <dbl> <dbl> <dbl>
1 ZAE000255915 2010 8118000 11756000 2.5
2 ZAE000255915 2011 9674000 14134000 2.3
3 ZAE000255915 2012 8393000 12266000 1.78
4 ZAE000255915 2013 11981000 17975000 1.84
5 ZAE000255915 2014 13216000 19921000 1.93
6 ZAE000255915 2015 14331000 21227000 2
7 ZAE000255915 2016 14708000 22210000 2.06
8 ZAE000255915 2017 13823000 21329000 2.01
9 ZAE000255915 2018 13917000 21772000 1.91
10 ZAE000255915 2019 14256000 21820000 1.87
# ... with 12 more rows
uj5u.com熱心網友回復:
如果您更喜歡 data.table 函式/語法,也許:
library(data.table)
x <- structure(list(id_isin = c("ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000198289", "ZAE000198289", "ZAE000198289"),
covariate = c("NET INC BEFORE_EXTRA/PFDDIVS",
"OPERATING INCOME", "RETURN ON ASSETS", "NET INC BEFORE EXTRA/PFD DIVS",
"OPERATING INCOME", "RETURN ON ASSETS"),
y2010 = c(8118000, 11756000, 2.5, NA, NA, NA),
y2011 = c(9674000, 14134000, 2.3, NA, NA, NA),
y2012 = c(8393000, 12266000, 1.78, NA, NA, NA),
y2013 = c(11981000, 17975000, 1.84, NA, NA, NA),
y2014 = c(13216000, 19921000, 1.93, NA, NA, NA),
y2015 = c(14331000L, 21227000L, 2L, 40811L, 48190L, NA),
y2016 = c(14708000, 22210000, 2.06, 559094, 233141, 10.84),
y2017 = c(13823000, 21329000, 2.01, 786806, 299230, 12.86),
y2018 = c(13917000, 21772000, 1.91, 814462, 307252, 11.76),
y2019 = c(14256000, 21820000, 1.87, 920734, 368575, 11.24),
y2020 = c(5880000, 10765000, 1.09, 485423, 326465, 5.57)),
row.names = c(NA, -6L), class = c("data.table", "data.frame" ))
x.m2 <- melt(x, id.vars = c("id_isin", "covariate"))
#> Warning in melt.data.table(x, id.vars = c("id_isin", "covariate")):
#> 'measure.vars' [y2010, y2011, y2012, y2013, ...] are not all of the same type.
#> By order of hierarchy, the molten data value column will be of type 'double'.
#> All measure variables not of type 'double' will be coerced too. Check DETAILS
#> in ?melt.data.table for more on coercion.
x.m3 <- dcast(x.m2, formula = id_isin variable ~ covariate, value.var = "value")
x.m3$year <- as.integer(gsub(x = x.m3$variable, pattern = "y", replacement = ""))
x.m4 <- x.m3[,variable := NULL]
x.m5 <- x.m4[,`NET INC BEFORE_EXTRA/PFDDIVS` := .(fcoalesce(`NET INC BEFORE_EXTRA/PFDDIVS`,`NET INC BEFORE EXTRA/PFD DIVS`))]
x.m6 <- x.m5[,`NET INC BEFORE EXTRA/PFD DIVS` := NULL]
x.m6
outcome <- structure(list(id_isin = c("ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000255915", "ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000255915", "ZAE000255915", "ZAE000255915", "ZAE000255915",
"ZAE000198289", "ZAE000198289", "ZAE000198289", "ZAE000198289",
"ZAE000198289", "ZAE000198289", "ZAE000198289", "ZAE000198289",
"ZAE000198289", "ZAE000198289", "ZAE000198289"),
year = c(2010L,
2011L, 2012L, 2013L, 2014L, 2015L, 2016L, 2017L, 2018L, 2019L,
2020L, 2010L, 2011L, 2012L, 2013L, 2014L, 2015L, 2016L, 2017L,
2018L, 2019L, 2020L),
`NET INC BEFORE_EXTRA/PFDDIVS` = c(8118000L,
9674000L, 8393000L, 11981000L, 13216000L, 14331000L, 14708000L,
13823000L, 13917000L, 14256000L, 5880000L, NA, NA, NA, NA, NA,
40811L, 559094L, 786806L, 814462L, 920734L, 485423L),
`OPERATING INCOME` = c(11756000L,
14134000L, 12266000L, 17975000L, 19921000L, 21227000L, 22210000L,
21329000L, 21772000L, 21820000L, 10765000L, NA, NA, NA, NA, NA,
48190L, 233141L, 299230L, 307252L, 368575L, 326465L),
`RETURN ON ASSETS` = c(2.5,
2.3, 1.78, 1.84, 1.93, 2, 2.06, 2.01, 1.91, 1.87, 1.09, NA, NA,
NA, NA, NA, NA, 10.84, 12.86, 11.76, 11.24, 5.57)),
row.names = c(NA, -22L), class = c("data.table", "data.frame"))
dplyr::all_equal(x.m6, outcome)
#> [1] "- Different types for column `NET INC BEFORE_EXTRA/PFDDIVS`: double vs integer\n- Different types for column `OPERATING INCOME`: double vs integer\n"
由reprex 包(v2.0.1)于 2021 年 12 月 21 日創建
uj5u.com熱心網友回復:
簡潔的 data.table 方法(x上面是你的輸入結構):
dcast(melt(
x[,covariate:=fifelse(
grepl("^NET",covariate),
"NET INC BEFORE_EXTRA/PFDDIVS",
covariate)],
,id=c(1,2),variable.name = "year")[
,year:=as.integer(gsub("y","",year))],
id_isin year~covariate,value.var = "value"
)
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