All the existing answers are imperfect (IMO) and either make assumptions about the desired output or don't provide flexibility for the desired output.
Based on the examples from the OP, and the OP's stated expected answers, I think these are the answers you are looking for (plus some additional examples that make it easy to extrapolate).
(This only requires base R and doesn't require zoo or lubridate)
Convert to Datetime Objects
> date_strings = c("14.01.2013", "26.03.2014")
> datetimes = strptime(date_strings, format = "%d.%m.%Y") # convert to datetime objects
Difference in Days
You can use the diff in days to get some of our later answers
> diff_in_days = difftime(datetimes, datetimes, units = "days") # days
Time difference of 435.9583 days
Difference in Weeks
Difference in weeks is a special case of units = "weeks" in difftime()
> diff_in_weeks = difftime(datetimes, datetimes, units = "weeks") # weeks
Time difference of 62.27976 weeks
Note that this is the same as dividing our diff_in_days by 7 (7 days in a week)
Difference in Years
With similar logic, we can derive years from diff_in_days
> diff_in_years = as.double(diff_in_days)/365 # absolute years
You seem to be expecting the diff in years to be "1", so I assume you just want to count absolute calendar years or something, which you can easily do by using floor()
> # get desired output, given your definition of 'years'
Difference in Quarters
> # get desired output for quarters, given your definition of 'quarters'
> floor(diff_in_years * 4)
Difference in Months
This was the fun one, and again it depends on your definition of "Months", but I think you mean how many distinct calendar months have passed.
> # months, defined as absolute calendar months (this might be what you want, given your question details)
> months_diff = as.double(substring(date_strings, 4, 5)) - as.double(substring(date_strings, 4, 5))
> total_months = floor(diff_in_years)*12 + months_diff
Alternatively, you can estimate number of months as groups of (30?) days. In this case it gives the same answer, but this will give a different answer in the counter-example that OP posted in which the dates are c("01.12.2013", "31.12.2013").
> # get desired output for months, given a month is 30 days (this is probably not what you want)
> floor(as.double(diff_in_days)/30) # estimate of months
This code for total months only works for your particular formatted dates (but the strategy is easily adaptable to any particular date format).
I know this question is old, but given that I still had to solve this problem just now, I thought I would add my answers. Hope it helps.