Summarizing rows

Jeff Stevens

2023-02-22

Introduction

The problem

What’s different between these data sets? What needs to happen to create data2 from data1?

data1
   cond id       date  response
1     3  1 2022-02-07 0.4460766
2     2  2 2022-01-27 0.8330881
3     2  3 2022-02-01 0.8812493
4     3  4 2022-02-26 0.6877129
5     1  5 2022-02-22 0.3244860
6     3  6 2022-02-04 0.1697650
7     3  7 2022-01-18 0.4985784
8     1  8 2022-01-06 0.3998830
9     2  9 2022-01-19 0.2892979
10    1 10 2022-02-21 0.4163418
11    3 11 2022-02-23 0.6210351
12    3 12 2022-01-02 0.5903278
data2
# A tibble: 3 × 4
   cond cond_n cond_mean cond_sd
  <int>  <int>     <dbl>   <dbl>
1     1      3     0.380  0.0490
2     2      3     0.668  0.329 
3     3      6     0.502  0.184 

Data wrangling

Set-up

library(dplyr)
library(nycflights13)
(flights2 <- select(flights, year:dep_delay, carrier))
# A tibble: 336,776 × 7
    year month   day dep_time sched_dep_time dep_delay carrier
   <int> <int> <int>    <int>          <int>     <dbl> <chr>  
 1  2013     1     1      517            515         2 UA     
 2  2013     1     1      533            529         4 UA     
 3  2013     1     1      542            540         2 AA     
 4  2013     1     1      544            545        -1 B6     
 5  2013     1     1      554            600        -6 DL     
 6  2013     1     1      554            558        -4 UA     
 7  2013     1     1      555            600        -5 B6     
 8  2013     1     1      557            600        -3 EV     
 9  2013     1     1      557            600        -3 B6     
10  2013     1     1      558            600        -2 AA     
# ℹ 336,766 more rows

Summarizing data

count()

flights2 |> 
  count(carrier)
# A tibble: 16 × 2
   carrier     n
   <chr>   <int>
 1 9E      18460
 2 AA      32729
 3 AS        714
 4 B6      54635
 5 DL      48110
 6 EV      54173
 7 F9        685
 8 FL       3260
 9 HA        342
10 MQ      26397
11 OO         32
12 UA      58665
13 US      20536
14 VX       5162
15 WN      12275
16 YV        601

count()

flights2 |> 
  count(carrier, month)
# A tibble: 185 × 3
   carrier month     n
   <chr>   <int> <int>
 1 9E          1  1573
 2 9E          2  1459
 3 9E          3  1627
 4 9E          4  1511
 5 9E          5  1462
 6 9E          6  1437
 7 9E          7  1494
 8 9E          8  1456
 9 9E          9  1540
10 9E         10  1673
# ℹ 175 more rows

summarise()

summarise()

flights2 |> 
  summarise(n())
# A tibble: 1 × 1
   `n()`
   <int>
1 336776

Summary functions

summarise()

flights2 |> 
  summarise(mean_dep_delay = mean(dep_delay), 
            sd_dep_delay = sd(dep_delay),
            n_dep_delay = n())
# A tibble: 1 × 3
  mean_dep_delay sd_dep_delay n_dep_delay
           <dbl>        <dbl>       <int>
1             NA           NA      336776

Why does this return NA?

flights2 |> 
  summarise(mean_dep_delay = mean(dep_delay, na.rm = TRUE),
          sd_dep_delay = sd(dep_delay, na.rm = TRUE),
          n_dep_delay = n())
# A tibble: 1 × 3
  mean_dep_delay sd_dep_delay n_dep_delay
           <dbl>        <dbl>       <int>
1           12.6         40.2      336776

Summarizing multiple columns

How do we apply a function across multiple columns?

summarise() + across()

flights2 |> 
  summarise(across(contains("_time"), mean))
# A tibble: 1 × 2
  dep_time sched_dep_time
     <dbl>          <dbl>
1       NA          1344.
flights2 |> 
  summarise(across(contains("_time"), ~ mean(.x, na.rm = TRUE)))
# A tibble: 1 × 2
  dep_time sched_dep_time
     <dbl>          <dbl>
1    1349.          1344.

Summarizing multiple columns

summarise() + across()

Multiple functions (add list())

flights2 |> 
  summarise(across(contains("_time"), # for all columns containing "_time"
                   list(mean = ~ mean(.x, na.rm = TRUE), # calculate the mean
                        sd = ~ sd(.x, na.rm = TRUE)))) # and standard deviation
# A tibble: 1 × 4
  dep_time_mean dep_time_sd sched_dep_time_mean sched_dep_time_sd
          <dbl>       <dbl>               <dbl>             <dbl>
1         1349.        488.               1344.              467.

Grouping data

group_by()

flights2 |> 
  group_by(month)
# A tibble: 336,776 × 7
# Groups:   month [12]
    year month   day dep_time sched_dep_time dep_delay carrier
   <int> <int> <int>    <int>          <int>     <dbl> <chr>  
 1  2013     1     1      517            515         2 UA     
 2  2013     1     1      533            529         4 UA     
 3  2013     1     1      542            540         2 AA     
 4  2013     1     1      544            545        -1 B6     
 5  2013     1     1      554            600        -6 DL     
 6  2013     1     1      554            558        -4 UA     
 7  2013     1     1      555            600        -5 B6     
 8  2013     1     1      557            600        -3 EV     
 9  2013     1     1      557            600        -3 B6     
10  2013     1     1      558            600        -2 AA     
# ℹ 336,766 more rows

group_by()

Remove groups with ungroup()

flights2 |> 
  group_by(month) |> 
  ungroup()
# A tibble: 336,776 × 7
    year month   day dep_time sched_dep_time dep_delay carrier
   <int> <int> <int>    <int>          <int>     <dbl> <chr>  
 1  2013     1     1      517            515         2 UA     
 2  2013     1     1      533            529         4 UA     
 3  2013     1     1      542            540         2 AA     
 4  2013     1     1      544            545        -1 B6     
 5  2013     1     1      554            600        -6 DL     
 6  2013     1     1      554            558        -4 UA     
 7  2013     1     1      555            600        -5 B6     
 8  2013     1     1      557            600        -3 EV     
 9  2013     1     1      557            600        -3 B6     
10  2013     1     1      558            600        -2 AA     
# ℹ 336,766 more rows

Summarizing groups of data

group_by() + summarise()

flights2 |> 
  group_by(carrier) |> 
  summarise(carrier_n = n(),
            mean_carrier_delay = mean(dep_delay, na.rm = TRUE), 
            sd_carrier_delay = sd(dep_delay, na.rm = TRUE))
# A tibble: 16 × 4
   carrier carrier_n mean_carrier_delay sd_carrier_delay
   <chr>       <int>              <dbl>            <dbl>
 1 9E          18460              16.7              45.9
 2 AA          32729               8.59             37.4
 3 AS            714               5.80             31.4
 4 B6          54635              13.0              38.5
 5 DL          48110               9.26             39.7
 6 EV          54173              20.0              46.6
 7 F9            685              20.2              58.4
 8 FL           3260              18.7              52.7
 9 HA            342               4.90             74.1
10 MQ          26397              10.6              39.2
11 OO             32              12.6              43.1
12 UA          58665              12.1              35.7
13 US          20536               3.78             28.1
14 VX           5162              12.9              44.8
15 WN          12275              17.7              43.3
16 YV            601              19.0              49.2

Summarizing multiple groups

group_by() + summarise()

flights2 |> 
  group_by(carrier, month) |> 
  summarise(carrier_n = n(),
            mean_carrier_delay = mean(dep_delay, na.rm = TRUE), 
            sd_carrier_delay = sd(dep_delay, na.rm = TRUE))
# A tibble: 185 × 5
# Groups:   carrier [16]
   carrier month carrier_n mean_carrier_delay sd_carrier_delay
   <chr>   <int>     <int>              <dbl>            <dbl>
 1 9E          1      1573              16.9              47.6
 2 9E          2      1459              16.5              50.5
 3 9E          3      1627              13.4              43.0
 4 9E          4      1511              13.6              43.8
 5 9E          5      1462              22.7              50.6
 6 9E          6      1437              29.0              55.4
 7 9E          7      1494              31.4              60.4
 8 9E          8      1456              17.3              42.8
 9 9E          9      1540               7.75             34.3
10 9E         10      1673               9.33             33.8
# ℹ 175 more rows

Summarizing groups for multiple columns

group_by() + summarise() + across()

flights2 |> 
  group_by(carrier) |> # separately for each carrier
  summarise(across(contains("_time"), # for all columns containing "_time"
                   list(mean = ~ mean(.x, na.rm = TRUE), # calculate the mean
                        sd = ~ sd(.x, na.rm = TRUE)))) # and standard deviation
# A tibble: 16 × 5
   carrier dep_time_mean dep_time_sd sched_dep_time_mean sched_dep_time_sd
   <chr>           <dbl>       <dbl>               <dbl>             <dbl>
 1 9E              1487.       450.                1472.             430. 
 2 AA              1297.       458.                1290.             442. 
 3 AS              1295.       566.                1285.             552. 
 4 B6              1381.       555.                1397.             525. 
 5 DL              1351.       463.                1346.             445. 
 6 EV              1369.       497.                1354.             471. 
 7 F9              1438.       405.                1408.             376. 
 8 FL              1387.       480.                1372.             446. 
 9 HA               949.        53.6                974.              41.7
10 MQ              1393.       442.                1387.             428. 
11 OO              1725.       163.                1731.             162. 
12 UA              1327.       484.                1313.             467. 
13 US              1231.       456.                1246.             447. 
14 VX              1280.       460.                1265.             435. 
15 WN              1281.       468.                1260.             440. 
16 YV              1601.       245.                1575.             223. 

Solving the problem

What code turns data1 into data2?

data1
   cond id       date  response
1     3  1 2022-02-07 0.4460766
2     2  2 2022-01-27 0.8330881
3     2  3 2022-02-01 0.8812493
4     3  4 2022-02-26 0.6877129
5     1  5 2022-02-22 0.3244860
6     3  6 2022-02-04 0.1697650
7     3  7 2022-01-18 0.4985784
8     1  8 2022-01-06 0.3998830
9     2  9 2022-01-19 0.2892979
10    1 10 2022-02-21 0.4163418
11    3 11 2022-02-23 0.6210351
12    3 12 2022-01-02 0.5903278
data2
# A tibble: 3 × 4
   cond cond_n cond_mean cond_sd
  <int>  <int>     <dbl>   <dbl>
1     1      3     0.380  0.0490
2     2      3     0.668  0.329 
3     3      6     0.502  0.184 

Slicing data

Slicing rows

What if you want to grab a subset of rows per group?

dplyr::slice_() functions

Slicing rows

Let’s say we want the first flight for each carrier on 2022-02-22.

flights2 |> 
  filter(month == 2 & day == 22 & dep_time > 10)
# A tibble: 938 × 7
    year month   day dep_time sched_dep_time dep_delay carrier
   <int> <int> <int>    <int>          <int>     <dbl> <chr>  
 1  2013     2    22      455            500        -5 US     
 2  2013     2    22      512            515        -3 UA     
 3  2013     2    22      530            530         0 UA     
 4  2013     2    22      536            545        -9 B6     
 5  2013     2    22      539            540        -1 AA     
 6  2013     2    22      551            600        -9 B6     
 7  2013     2    22      553            600        -7 DL     
 8  2013     2    22      553            600        -7 EV     
 9  2013     2    22      553            600        -7 B6     
10  2013     2    22      553            600        -7 US     
# ℹ 928 more rows

Slicing rows

Let’s say we want the first flight for each carrier on 2022-02-22.

flights2 |> 
  filter(month == 2 & day == 22 & dep_time > 10) |> 
  group_by(carrier) |> 
  slice_min(dep_time)
# A tibble: 15 × 7
# Groups:   carrier [15]
    year month   day dep_time sched_dep_time dep_delay carrier
   <int> <int> <int>    <int>          <int>     <dbl> <chr>  
 1  2013     2    22      558            605        -7 9E     
 2  2013     2    22      539            540        -1 AA     
 3  2013     2    22      731            725         6 AS     
 4  2013     2    22      536            545        -9 B6     
 5  2013     2    22      553            600        -7 DL     
 6  2013     2    22      553            600        -7 EV     
 7  2013     2    22      827            830        -3 F9     
 8  2013     2    22      602            600         2 FL     
 9  2013     2    22      857            900        -3 HA     
10  2013     2    22      553            600        -7 MQ     
11  2013     2    22      512            515        -3 UA     
12  2013     2    22      455            500        -5 US     
13  2013     2    22      702            705        -3 VX     
14  2013     2    22      601            600         1 WN     
15  2013     2    22     1601           1606        -5 YV     

Slicing rows

What if we want the three most delayed flight for each carrier on 2022-02-22.

flights2 |> 
  filter(month == 2 & day == 22 & dep_time > 10) |> 
  group_by(carrier) |> 
  slice_max(dep_delay, n = 3) |> 
  arrange(carrier, dep_delay)
# A tibble: 43 × 7
# Groups:   carrier [15]
    year month   day dep_time sched_dep_time dep_delay carrier
   <int> <int> <int>    <int>          <int>     <dbl> <chr>  
 1  2013     2    22     1723           1540       103 9E     
 2  2013     2    22     2301           1945       196 9E     
 3  2013     2    22     2010           1550       260 9E     
 4  2013     2    22     2134           2015        79 AA     
 5  2013     2    22     2240           2045       115 AA     
 6  2013     2    22     2000           1700       180 AA     
 7  2013     2    22     1811           1815        -4 AS     
 8  2013     2    22      731            725         6 AS     
 9  2013     2    22     1955           1805       110 B6     
10  2013     2    22     1829           1600       149 B6     
# ℹ 33 more rows

Putting it all together

{dplyr} verbs

Solving the problem

What code turns data1 into data3?

data1
   cond id       date  response
1     3  1 2022-02-07 0.4460766
2     2  2 2022-01-27 0.8330881
3     2  3 2022-02-01 0.8812493
4     3  4 2022-02-26 0.6877129
5     1  5 2022-02-22 0.3244860
6     3  6 2022-02-04 0.1697650
7     3  7 2022-01-18 0.4985784
8     1  8 2022-01-06 0.3998830
9     2  9 2022-01-19 0.2892979
10    1 10 2022-02-21 0.4163418
11    3 11 2022-02-23 0.6210351
12    3 12 2022-01-02 0.5903278
data3
# A tibble: 2 × 2
  condition   earliest_date
  <chr>       <date>       
1 Condition 2 2022-01-19   
2 Condition 3 2022-01-02   

Let’s code!

Summarizing rows [Rmd]