# r Averaging the elements of a list

Suppose I have a list with three object as shown below

``````[[1]]
yeargp gender   Estimate   ci.lower  ci.upper
1 1991-1995      M  0.8757711 -0.8407402  2.592282
2 1991-1995      F  0.0000000  0.0000000  0.000000
3 1996-2000      M  2.2119671 -0.8536629  5.277597
4 1996-2000      F  2.8254349 -0.3718457  6.022715
5 2001-2005      M  7.7695653  2.6460791 12.893051
6 2001-2005      F  2.2710074 -0.3108077  4.852822
7 2006-2010      M 12.1639403  6.1435827 18.184298
8 2006-2010      F  6.3637686  2.5667028 10.160834

[[2]]
yeargp gender  Estimate   ci.lower  ci.upper
1 1991-1995      M  0.000000  0.0000000  0.000000
2 1991-1995      F  0.000000  0.0000000  0.000000
3 1996-2000      M  2.211967 -0.8536629  5.277597
4 1996-2000      F  2.825435 -0.3718457  6.022715
5 2001-2005      M  8.599076  3.2238115 13.974341
6 2001-2005      F  1.517900 -0.6003366  3.636137
7 2006-2010      M 13.485237  7.1911854 19.779289
8 2006-2010      F  5.991342  2.2651006  9.717582

[[3]]
yeargp gender  Estimate   ci.lower  ci.upper
1 1991-1995      M  0.000000  0.0000000  0.000000
2 1991-1995      F  0.000000  0.0000000  0.000000
3 1996-2000      M  3.317951 -0.4366640  7.072565
4 1996-2000      F  1.883623 -0.7269454  4.494192
5 2001-2005      M  7.643263  2.6144621 12.672065
6 2001-2005      F  2.366219 -0.3266446  5.059082
7 2006-2010      M 13.637280  7.2795528 19.995008
8 2006-2010      F  5.991342  2.2651006  9.717582
``````

what is an efficient way to compute the average of all the elements in column3-column5, (Estimate, ci.lower, ci.upper) ?

This is what i am expecting to achive.

``````year      Gender Estimate     L.C.L          U.C.L
1991-1995   M    0.2919237   -0.280246733   0.864094
1991-1995   F    0            0             0
1996-2000   M    2.580628367 -0.714663267   5.875919667
1996-2000   F    2.511497633 -0.490212267   5.513207333
2001-2005   M    8.0039681    2.828117567   13.179819
2001-2005   F    2.0517088   -0.4125963     4.516013667
2006-2010   M    13.09548577  6.8714403     19.31953167
2006-2010   F    6.1154842    2.365634667   9.865332667
``````

Any advice is much appreciated thanks. Below is the output from the dput function on my list.

``````templist <- list(structure(list(yeargp = structure(c(1L, 1L, 2L, 2L, 3L,
3L, 4L, 4L), .Label = c("1991-1995", "1996-2000", "2001-2005",
"2006-2010"), class = "factor"), gender = structure(c(1L, 2L, 1L,
2L, 1L, 2L, 1L, 2L), .Label = c("M", "F"), class = "factor"),
Estimate = c(0.875771052955988, 0, 2.2119670520759, 2.82543488793347,
7.76956525829443, 2.27100738124732, 12.1639402903974, 6.36376856610303
), ci.lower = c(-0.840740210837749, 0, -0.853662876400907,
-0.371845674593782, 2.64607905876294, -0.310807679155956,
6.14358267928312, 2.56670275678554), ci.upper = c(2.59228231674973,
0, 5.2775969805527, 6.02271545046073, 12.8930514578259, 4.85282244165059,
18.1842979015118, 10.1608343754205)), .Names = c("yeargp",
"gender", "Estimate", "ci.lower", "ci.upper"), row.names = c(NA,
-8L), class = "data.frame"), structure(list(yeargp = structure(c(1L,
1L, 2L, 2L, 3L, 3L, 4L, 4L), .Label = c("1991-1995", "1996-2000",
"2001-2005", "2006-2010"), class = "factor"), gender = structure(c(1L,
2L, 1L, 2L, 1L, 2L, 1L, 2L), .Label = c("M", "F"), class = "factor"),
Estimate = c(0, 0, 2.2119670520759, 2.82543488793347, 8.59907630432197,
1.51790034439859, 13.4852371898016, 5.9913415231189), ci.lower = c(0,
0, -0.853662876400907, -0.371845674593782, 3.2238114821611,
-0.600336642205772, 7.19118540022504, 2.26510058455415),
ci.upper = c(0, 0, 5.2775969805527, 6.02271545046073, 13.9743411264828,
3.63613733100296, 19.7792889793781, 9.71758246168364)), .Names = c("yeargp",
"gender", "Estimate", "ci.lower", "ci.upper"), row.names = c(NA,
-8L), class = "data.frame"), structure(list(yeargp = structure(c(1L,
1L, 2L, 2L, 3L, 3L, 4L, 4L), .Label = c("1991-1995", "1996-2000",
"2001-2005", "2006-2010"), class = "factor"), gender = structure(c(1L,
2L, 1L, 2L, 1L, 2L, 1L, 2L), .Label = c("M", "F"), class = "factor"),
Estimate = c(0, 0, 3.31795057811384, 1.88362325862232,
7.6432632822894, 2.36621893284824, 13.6372803202135, 5.9913415231189
), ci.lower = c(0, 0, -0.436663954372684, -0.726945388947865,
2.6144620600312, -0.32664459212626, 7.27955279689059, 2.26510058455415
), ci.upper = c(0, 0, 7.07256511060037, 4.4941919061925,
12.6720645045476, 5.05908245782275, 19.9950078435365, 9.71758246168364
)), .Names = c("yeargp", "gender", "Estimate", "ci.lower",
"ci.upper"), row.names = c(NA, -8L), class = "data.frame"))
``````

Short and sweet:

``````df <- do.call(rbind, templist)
aggregate(df[3:5], df[1:2], mean)
``````

Here is one possible `dplyr` solution yielding the exact same outcome you expect:

``````library(dplyr)

# binding the data together
bind_rows(templist[[1]], templist[[2]], templist[[3]]) %>%
# grouping by year and gender
group_by(yeargp, gender) %>%
# computing necessary averages with names wanted
summarise(
Estimate = mean(Estimate),
L.C.L = mean(ci.lower),
U.C.L = mean(ci.upper)
) %>%
# renaming year and gender as your expected output
rename(
year = yeargp,
Gender = gender
)

# # A tibble: 8 x 5
# # Groups:   year [4]
#   year      Gender Estimate  L.C.L  U.C.L
#   <fct>     <fct>     <dbl>  <dbl>  <dbl>
# 1 1991-1995 M         0.292 -0.280  0.864
# 2 1991-1995 F         0      0      0
# 3 1996-2000 M         2.58  -0.715  5.88
# 4 1996-2000 F         2.51  -0.490  5.51
# 5 2001-2005 M         8.00   2.83  13.2
# 6 2001-2005 F         2.05  -0.413  4.52
# 7 2006-2010 M        13.1    6.87  19.3
# 8 2006-2010 F         6.12   2.37   9.87
``````

We can do this with `Reduce` to get the sum of corresponding elements of numeric columns, divide by the length of the `list` and `cbind` with the first 2 columns of one of the `list` elements

``````cbind(templist[[1]][1:2], Reduce(`+`, lapply(templist, `[`, 3:5))/3)
#  yeargp gender   Estimate   ci.lower   ci.upper
#1 1991-1995      M  0.2919237 -0.2802467  0.8640941
#2 1991-1995      F  0.0000000  0.0000000  0.0000000
#3 1996-2000      M  2.5806282 -0.7146632  5.8759197
#4 1996-2000      F  2.5114977 -0.4902122  5.5132076
#5 2001-2005      M  8.0039683  2.8281175 13.1798190
#6 2001-2005      F  2.0517089 -0.4125963  4.5160141
#7 2006-2010      M 13.0954859  6.8714403 19.3195316
#8 2006-2010      F  6.1154839  2.3656346  9.8653331
``````

Assuming the 'yeargp' and 'gender' are the same in all the `list` elements

Or using `tidyverse` with `group_by_at` and `summarise_all`

``````library(tidyverse)
templist %>%
bind_rows %>%
group_by_at(1:2) %>%
summarise_all(mean)
``````

For the mean of each element:

``````lapply(templist, function(x) apply(x[,3:5], 2, mean))
[[1]]
Estimate ci.lower ci.upper
4.310    1.122    7.498

[[2]]
Estimate ci.lower ci.upper
4.329    1.357    7.301

[[3]]
Estimate ci.lower ci.upper
4.355    1.334    7.376
``````

global means:

``````apply(data.frame(lapply(templist, function(x) apply(x[,3:5], 2, mean))),1,mean)
Estimate ci.lower ci.upper
4.331    1.271    7.392
``````
• this is collapsing the estimates across the years and gender I wanted the estimates separate by year and gender. – Sundown Brownbear Aug 10 '18 at 21:35