1) **seq.Date**. Note that since June has only 30 days it cannot give June 31st so it gives July 1st instead.

```
> seq(as.Date("2012/12/31"), length = 2, by = "-6 months")[2]
[1] "2012-07-01"
```

If we knew it was at month end we could do this:

```
> seq(as.Date(cut(as.Date("2012/12/31"), "month")), length=2, by="-5 month")[2]-1
[1] "2012-06-30"
```

2) **yearmon**. Also if we knew it was month end then we could use the `"yearmon"`

class of the zoo package like this:

```
> library(zoo)
> as.Date(as.yearmon(as.Date("2012/12/31")) -.5, frac = 1)
[1] "2012-06-30"
```

This converts the date to `"yearmon"`

subtracts 6 months (.5 of a year) and then converts it back to `"Date"`

using `frac=1`

which means the end of the month (`frac=0`

would mean the beginning of the month). This also has the advantage over the previous solution that it is vectorized automatically, i.e. `as.Date(...)`

could have been a vector of dates.

Note that if `"Date"`

class is only being used as a way of representing months then we can get rid of it altogether and directly use `"yearmon"`

since that models what we want in the first place:

```
> as.yearmon("2012-12") - .5
[1] "Jun 2012"
```

3) **mondate**. A third solution is the mondate package which has the advantage here that it returns the end of the month 6 months ago without having to know that we are month end:

```
> library(mondate)
> mondate("2011/12/31") - 6
mondate: timeunits="months"
[1] 2011/06/30
```

This is also vectorized.

4) **lubridate**. The lubridate package gives a similar answer to (1) above:

```
> library(lubridate)
> as.Date("2012/12/31") - months(6)
[1] "2012-07-01"
```

If we knew it was month end then we could do this:

```
> update(as.Date("2012/12/31"), day = 1) - months(5) - days(1)
[1] "2012-06-30"
```

The lubridate solutions are also vectorized.