1

I have a dataset for which I want to summarise by mean, but also calculate the max to just 1 of the variables.

Let me start with an example of what I would like to achieve:

iris %>%
  group_by(Species) %>%
  filter(Sepal.Length > 5) %>%
  summarise_at("Sepal.Length:Petal.Width",funs(mean))

which give me the following result

# A tibble: 3 × 5
     Species Sepal.Length Sepal.Width Petal.Length Petal.Width
      <fctr>        <dbl>       <dbl>        <dbl>       <dbl>
1     setosa          5.8         4.4          1.9         0.5
2 versicolor          7.0         3.4          5.1         1.8
3  virginica          7.9         3.8          6.9         2.5

Is there an easy way to add, for example, max(Petal.Width)to summarise?

So far I have tried the following:

iris %>%
  group_by(Species) %>%
  filter(Sepal.Length > 5) %>%
  summarise_at("Sepal.Length:Petal.Width",funs(mean)) %>%
  mutate(Max.Petal.Width = max(iris$Petal.Width))

But with this approach I lose both the group_by and the filter from the code above and gives the wrong results.

The only solution I have been able to achieve is the following:

iris %>%
  group_by(Species) %>%
  filter(Sepal.Length > 5) %>%
  summarise_at("Sepal.Length:Petal.Width",funs(mean,max)) %>%
  select(Species:Petal.Width_mean,Petal.Width_max) %>% 
  rename(Max.Petal.Width = Petal.Width_max) %>%
  rename_(.dots = setNames(names(.), gsub("_.*$","",names(.))))

Which is a bit convoluted and involves a lot of typing to just add a column with a different summarisation.

Thank you

1

If you wanted to do something more complex like that, you could write your own version of summarize_at. With this version you supply triplets of column names, functions, and naming rules. For example

Here's a rough start

my_summarise_at<-function (.tbl, ...) 
{
    dots <- list(...)
    stopifnot(length(dots)%%3==0)
    vars <- do.call("append", Map(function(.cols, .funs, .name) {
        cols <- select_colwise_names(.tbl, .cols)
        funs <- as.fun_list(.funs, .env = parent.frame())
        val<-colwise_(.tbl, funs, cols)
        names <- sapply(names(val), function(x) gsub("%", x, .name))
        setNames(val, names)
    }, dots[seq_along(dots)%%3==1], dots[seq_along(dots)%%3==2], dots[seq_along(dots)%%3==0]))
    summarise_(.tbl, .dots = vars)
}
environment(my_summarise_at)<-getNamespace("dplyr")

And you can call it with

iris %>%
  group_by(Species) %>%
  filter(Sepal.Length > 5) %>%
  my_summarise_at("Sepal.Length:Petal.Width", mean, "%_mean", 
      "Petal.Width", max, "%_max")

For the names we just replace the "%" with the default name. The idea is just to dynamically build the summarize_ expression. The summarize_at function is really just a convenience wrapper around that basic function.

  • MrFlick, thank you for the reply. I have tried your code, but since summarise drops the original table, the "max" function is not rendering the correct results. – Jordi Vidal Dec 14 '16 at 19:38
  • Oh, ok. Since the transformations are applied in the order they are listed in summarize, the first step is renaming the Petal.Width column so it's taking the wrong max. I've updated my answer to rename the summarized columns but changing the order to my_summarise_at("Petal.Width", max, "%_max", "Sepal.Length:Petal.Width", mean, "%") should also work. – MrFlick Dec 14 '16 at 19:44
1

Although this is an old question, it remains an interesting problem for which I have two solutions that I believe should be available to whoever finds this page.

Solution one

My own take:

mapply(summarise_at, 
       .vars = lst(names(iris)[!names(iris)%in%"Species"], "Petal.Width"), 
       .funs = lst(mean, max), 
       MoreArgs = list(.tbl = iris %>% group_by(Species) %>% filter(Sepal.Length > 5))) 
%>% reduce(merge, by = "Species")

    #         Species Sepal.Length Sepal.Width Petal.Length Petal.Width.x Petal.Width.y
    #    1     setosa        5.314       3.714        1.509        0.2773           0.5
    #    2 versicolor        5.998       2.804        4.317        1.3468           1.8
    #    3  virginica        6.622       2.984        5.573        2.0327           2.5

Solution two

An elegant solution using package purrr from the tidyverse itself, inspired by this discussion:

list(.vars = lst(names(iris)[!names(iris)%in%"Species"], "Petal.Width"),
     .funs = lst("mean" = mean, "max" = max)) %>% 
      pmap(~ iris %>% group_by(Species) %>% filter(Sepal.Length > 5) %>% summarise_at(.x, .y)) 
      %>% reduce(inner_join, by = "Species")

+ + + # A tibble: 3 x 6
  Species    Sepal.Length Sepal.Width Petal.Length Petal.Width.x Petal.Width.y
  <fct>             <dbl>       <dbl>        <dbl>         <dbl>         <dbl>
1 setosa             5.31        3.71         1.51         0.277           0.5
2 versicolor         6.00        2.80         4.32         1.35            1.8
3 virginica          6.62        2.98         5.57         2.03            2.5

Short discussion

The data.frame and tibble are the desired result, the last column being the max of petal.width and the other ones the means (by group and filter) of all other columns.

Both solutions hinge on three realizations:

  1. summarise_at accepts as arguments two lists, one of n variables and one of m functions, and applies all m functions to all n variables, therefore producing m X n vectors in a tibble. The solution might thus imply forcing this function to loop in some way across "couples" formed by all variables to which we want one specific function to be applied and the one function, then another group of variables and their own function, and so on!
  2. Now, what does the above in R? What does force an operation to corresponding elements of two lists? Functions such as mapply or the family of functions map2, pmap and variations thereof from dplyr's tidyverse fellow purrr. Both accept two lists of l elements and perform a given operation on corresponding elements (matched by position) of the two lists.
  3. Because the product is not a tibble or a data.frame, but a list, you simply need to use reduce with inner_join or just merge.

Note that the means I obtain are different from those of the OP, but they are the means I obtain with his reproducible example as well (maybe we have two different versions of the iris dataset?).

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