Tiling window without overlapping observations:

• tile2() and ptile() always returns a list.

• tile2_lgl(), tile2_int(), tile2_dbl(), tile2_chr() use the same arguments as tile2(), but return vectors of the corresponding type.

• tile2_dfr() tile2_dfc() return data frames using row-binding & column-binding.

tile2(.x, .y, .f, ..., .size = 1, .bind = FALSE)

tile2_dfr(.x, .y, .f, ..., .size = 1, .bind = FALSE, .id = NULL)

tile2_dfc(.x, .y, .f, ..., .size = 1, .bind = FALSE)

ptile(.l, .f, ..., .size = 1, .bind = FALSE)

ptile_dfr(.l, .f, ..., .size = 1, .bind = FALSE, .id = NULL)

ptile_dfc(.l, .f, ..., .size = 1, .bind = FALSE)

## Arguments

.x Objects to slide over simultaneously. Objects to slide over simultaneously. A function, formula, or vector (not necessarily atomic). If a function, it is used as is. If a formula, e.g. ~ .x + 2, it is converted to a function. There are three ways to refer to the arguments: For a single argument function, use . For a two argument function, use .x and .y For more arguments, use ..1, ..2, ..3 etc This syntax allows you to create very compact anonymous functions. If character vector, numeric vector, or list, it is converted to an extractor function. Character vectors index by name and numeric vectors index by position; use a list to index by position and name at different levels. If a component is not present, the value of .default will be returned. Additional arguments passed on to the mapped function. An integer for window size. If positive, moving forward from left to right; if negative, moving backward (from right to left). If .x is a list, should .x be combined before applying .f? If .x is a list of data frames, row binding is carried out. Either a string or NULL. If a string, the output will contain a variable with that name, storing either the name (if .x is named) or the index (if .x is unnamed) of the input. If NULL, the default, no variable will be created. Only applies to _dfr variant. A list of vectors, such as a data frame. The length of .l determines the number of arguments that .f will be called with. List names will be used if present.

• slide2 for sliding window with overlapping observations

• stretch2 for expanding more observations

Other tiling window functions: tile

## Examples

x <- 1:5
y <- 6:10
z <- 11:15
lst <- list(x = x, y = y, z = z)
df <- as.data.frame(lst)
tile2(x, y, sum, .size = 2)#> [[1]]
#> [1] 16
#>
#> [[2]]
#> [1] 24
#>
#> [[3]]
#> [1] 15
#> tile2(lst, lst, ~., .size = 2)#> [[1]]
#> [[1]]$x #> [1] 1 2 3 4 5 #> #> [[1]]$y
#> [1]  6  7  8  9 10
#>
#>
#> [[2]]
#> [[2]]$z #> [1] 11 12 13 14 15 #> #> tile2(df, df, ~., .size = 2)#> [[1]] #> x y z #> 1 1 6 11 #> 2 2 7 12 #> #> [[2]] #> x y z #> 3 3 8 13 #> 4 4 9 14 #> #> [[3]] #> x y z #> 5 5 10 15 #> ptile(lst, sum, .size = 1)#> [[1]] #> [1] 18 #> #> [[2]] #> [1] 21 #> #> [[3]] #> [1] 24 #> #> [[4]] #> [1] 27 #> #> [[5]] #> [1] 30 #> ptile(list(lst, lst), ~., .size = 2)#> [[1]] #> [[1]]$x
#> [1] 1 2 3 4 5
#>
#> [[1]]$y #> [1] 6 7 8 9 10 #> #> #> [[2]] #> [[2]]$z
#> [1] 11 12 13 14 15
#>
#>