I wanted to complement the previous answers by mentioning two ways in which I approach this problem in the important case **when you are not guaranteed that each group has data for every time period**. That is, you still have a regularly spaced time series, but there might be missings here and there. I will focus on two ways to improve the `dplyr`

solution.

We start with the same data that you used...

```
library(dplyr)
library(tidyr)
set.seed(1)
data_df = data.frame(time = c(1:3, 1:4),
groups = c(rep(c("b", "a"), c(3, 4))),
value = rnorm(7))
data_df
#> time groups value
#> 1 1 b -0.6264538
#> 2 2 b 0.1836433
#> 3 3 b -0.8356286
#> 4 1 a 1.5952808
#> 5 2 a 0.3295078
#> 6 3 a -0.8204684
#> 7 4 a 0.4874291
```

... but now we delete a couple of rows

```
data_df = data_df[-c(2, 6), ]
data_df
#> time groups value
#> 1 1 b -0.6264538
#> 3 3 b -0.8356286
#> 4 1 a 1.5952808
#> 5 2 a 0.3295078
#> 7 4 a 0.4874291
```

### Simple `dplyr`

solution no longer works

```
data_df %>%
arrange(groups, time) %>%
group_by(groups) %>%
mutate(lag.value = lag(value)) %>%
ungroup()
#> # A tibble: 5 x 4
#> time groups value lag.value
#> <int> <fct> <dbl> <dbl>
#> 1 1 a 1.60 NA
#> 2 2 a 0.330 1.60
#> 3 4 a 0.487 0.330
#> 4 1 b -0.626 NA
#> 5 3 b -0.836 -0.626
```

You see that, although we don't have the value for the case `(group = 'a', time = '3')`

, the above still shows a value for the lag in the case of `(group = 'a', time = '4')`

, which is actually the value at `time = 2`

.

### Correct `dplyr`

solution

The idea is that we add the missing (group, time) combinations. This is **VERY** memory-inefficient when you have lots of possible (groups, time) combinations, but the values are sparsely captured.

```
dplyr_correct_df = expand.grid(
groups = sort(unique(data_df$groups)),
time = seq(from = min(data_df$time), to = max(data_df$time))
) %>%
left_join(data_df, by = c("groups", "time")) %>%
arrange(groups, time) %>%
group_by(groups) %>%
mutate(lag.value = lag(value)) %>%
ungroup()
dplyr_correct_df
#> # A tibble: 8 x 4
#> groups time value lag.value
#> <fct> <int> <dbl> <dbl>
#> 1 a 1 1.60 NA
#> 2 a 2 0.330 1.60
#> 3 a 3 NA 0.330
#> 4 a 4 0.487 NA
#> 5 b 1 -0.626 NA
#> 6 b 2 NA -0.626
#> 7 b 3 -0.836 NA
#> 8 b 4 NA -0.836
```

Notice that we now have a NA at `(group = 'a', time = '4')`

, which should be the expected behaviour. Same with `(group = 'b', time = '3')`

.

### Tedious but also correct solution using the class `zoo::zooreg`

This solution should work better in terms of memory when the amount of cases is very large, because instead of filling the missing cases with NA's, it uses indices.

```
library(zoo)
zooreg_correct_df = data_df %>%
as_tibble() %>%
# nest the data for each group
# should work for multiple groups variables
nest(-groups, .key = "zoo_ob") %>%
mutate(zoo_ob = lapply(zoo_ob, function(d) {
# create zooreg objects from the individual data.frames created by nest
z = zoo::zooreg(
data = select(d,-time),
order.by = d$time,
frequency = 1
) %>%
# calculate lags
# we also ask for the 0'th order lag so that we keep the original value
zoo:::lag.zooreg(k = (-1):0) # note the sign convention is different
# recover df's from zooreg objects
cbind(
time = as.integer(zoo::index(z)),
zoo:::as.data.frame.zoo(z)
)
})) %>%
unnest() %>%
# format values
select(groups, time, value = value.lag0, lag.value = `value.lag-1`) %>%
arrange(groups, time) %>%
# eliminate additional periods created by lag
filter(time <= max(data_df$time))
zooreg_correct_df
#> # A tibble: 8 x 4
#> groups time value lag.value
#> <fct> <int> <dbl> <dbl>
#> 1 a 1 1.60 NA
#> 2 a 2 0.330 1.60
#> 3 a 3 NA 0.330
#> 4 a 4 0.487 NA
#> 5 b 1 -0.626 NA
#> 6 b 2 NA -0.626
#> 7 b 3 -0.836 NA
#> 8 b 4 NA -0.836
```

Finally, lets check that both correct solutions are actually equal:

```
all.equal(dplyr_correct_df, zooreg_correct_df)
#> [1] TRUE
```

`group_by`

`unlist(by(data, data$groups, function(x) c(NA, head(x$value, -1))))`

would be a base way`lag`

and the dataset is not that big, there won't be much difference in efficiency between`base R`

,`plyr`

,`data.table`

methods.`lag`

is slow, it must depend on the code in`lag`

. You can check`getAnywhere('lag.default')[1]`