Week 12: Apply it to your data 11

Import your data

data(flights)

flights %>% skimr::skim()

Data summary
Name	Piped data
Number of rows	336776
Number of columns	19
_______________________
Column type frequency:
character	4
numeric	14
POSIXct	1
________________________
Group variables	None

Variable type: character

skim_variable	n_missing	complete_rate	min	max	n_unique
carrier	0	1.00	2	2	16
tailnum	2512	0.99	5	6	4043
origin	0	1.00	3	3	3
dest	0	1.00	3	3	105

Variable type: numeric

skim_variable	n_missing	complete_rate	mean	sd	p0	p25	p50	p75	p100	hist
year	0	1.00	2013.00	0.00	2013	2013	2013	2013	2013	▁▁▇▁▁
month	0	1.00	6.55	3.41	1	4	7	10	12	▇▆▆▆▇
day	0	1.00	15.71	8.77	1	8	16	23	31	▇▇▇▇▆
dep_time	8255	0.98	1349.11	488.28	1	907	1401	1744	2400	▁▇▆▇▃
sched_dep_time	0	1.00	1344.25	467.34	106	906	1359	1729	2359	▁▇▇▇▃
dep_delay	8255	0.98	12.64	40.21	-43	-5	-2	11	1301	▇▁▁▁▁
arr_time	8713	0.97	1502.05	533.26	1	1104	1535	1940	2400	▁▃▇▇▇
sched_arr_time	0	1.00	1536.38	497.46	1	1124	1556	1945	2359	▁▃▇▇▇
arr_delay	9430	0.97	6.90	44.63	-86	-17	-5	14	1272	▇▁▁▁▁
flight	0	1.00	1971.92	1632.47	1	553	1496	3465	8500	▇▃▃▁▁
air_time	9430	0.97	150.69	93.69	20	82	129	192	695	▇▂▂▁▁
distance	0	1.00	1039.91	733.23	17	502	872	1389	4983	▇▃▂▁▁
hour	0	1.00	13.18	4.66	1	9	13	17	23	▁▇▇▇▅
minute	0	1.00	26.23	19.30	0	8	29	44	59	▇▃▆▃▅

Variable type: POSIXct

skim_variable	n_missing	complete_rate	min	max	median	n_unique
time_hour	0	1	2013-01-01 05:00:00	2013-12-31 23:00:00	2013-07-03 10:00:00	6936

Create Data frame functions

Example 1: count columns

code snippets

ncol_num <- flights %>%
    
    # Select a type of variables
    select(where(is.numeric)) %>%
    
    # Count columns
    ncol()

ncol_num

## [1] 14

Turn them into a function

count_ncol_numeric <- function(.data) {
    
    # Body
    ncol_num <- .data %>%
    
        # Select a type of variables
        select(where(is.numeric)) %>%
    
        # Count columns
        ncol()
    
    # Return the new variable
    return(ncol_num)
}

flights %>% count_ncol_numeric()

## [1] 14

flights %>% .[1:10, -1:-13] %>% count_ncol_numeric()

## [1] 4

Adding arguments for details of operation

count_ncol_type <- function(.data, type_data = "numeric") {
    
    # If Statement for Type of Variables
    if(type_data == "numeric") {
         # Body
    ncol_type <- .data %>%
    
        # Select a type of variables
        select(where(is.numeric)) %>%
    
        # Count columns
        ncol()
    } else if (type_data == "character") {
        # Body
    ncol_type <- .data %>%
    
        # Select a type of variables
        select(where(is.character)) %>%
    
        # Count columns
        ncol()
        
    }
    
    # Return the new variable
    return(ncol_type)
}

flights %>% count_ncol_type()

## [1] 14

flights %>% count_ncol_type(type_data = "character")

## [1] 4

flights %>% .[1:10, 1:5] %>% count_ncol_type(type_data = "character")

## [1] 0

Example 2: count rows

code snippets

nrow_num <- flights %>%
    
    # filter rows that meet a condition
    filter(carrier == "DL") %>%
    
    # Count rows
    nrow()

nrow_num

## [1] 48110

Turn them into a function

count_num_flights_by_carrier <- function(.data, carrier_name) {
    
    # Body
    nrow_num <- .data %>%
    
    #  filter rows that meet a condition
    filter(carrier == carrier_name) %>%
    
    # Count rows
    nrow()
    
    # Return the New Variable 
    return(nrow_num)
}

flights %>% .[1:10, "carrier"] %>% count_num_flights_by_carrier(carrier_name = "DL")

## [1] 1

Example 3: count rows

Create your own.

# Importing data
data(mtcars)
mtcars %>% skimr::skim()

Data summary
Name	Piped data
Number of rows	32
Number of columns	11
_______________________
Column type frequency:
numeric	11
________________________
Group variables	None

Variable type: numeric

skim_variable	complete_rate	mean	sd	p0	p25	p50	p75	p100	hist
mpg	1	20.09	6.03	10.40	15.43	19.20	22.80	33.90	▃▇▅▁▂
cyl	1	6.19	1.79	4.00	4.00	6.00	8.00	8.00	▆▁▃▁▇
disp	1	230.72	123.94	71.10	120.83	196.30	326.00	472.00	▇▃▃▃▂
hp	1	146.69	68.56	52.00	96.50	123.00	180.00	335.00	▇▇▆▃▁
drat	1	3.60	0.53	2.76	3.08	3.70	3.92	4.93	▇▃▇▅▁
wt	1	3.22	0.98	1.51	2.58	3.33	3.61	5.42	▃▃▇▁▂
qsec	1	17.85	1.79	14.50	16.89	17.71	18.90	22.90	▃▇▇▂▁
vs	1	0.44	0.50	0.00	0.00	0.00	1.00	1.00	▇▁▁▁▆
am	1	0.41	0.50	0.00	0.00	0.00	1.00	1.00	▇▁▁▁▆
gear	1	3.69	0.74	3.00	3.00	4.00	4.00	5.00	▇▁▆▁▂
carb	1	2.81	1.62	1.00	2.00	2.00	4.00	8.00	▇▂▅▁▁

code snippets

Use the filter() function to select rows that meet a condition. Refer to Chapter 5.2 Filter rows with filter()

nrow_num <- mtcars %>%
  
  # Filter rows that meet a condition
  filter(cyl == 6) %>%
  
  # Count rows
  nrow()

nrow_num

## [1] 7

Turn them into a function

count_rows_by_condition <- function(.data, column_name, condition) {
    
    # body
    filtered_data <- .data %>%
        
        # filter rows that meet a condition
        filter({{column_name}} == condition)
    
        # count rows
        row_count <- nrow(filtered_data)
        
    # return the new variable
    return (row_count)
    
}

mtcars %>% count_rows_by_condition(cyl, 6)

## [1] 7

mtcars %>% count_rows_by_condition(cyl, 8)

## [1] 14

Week 12: Apply it to your data 11

Chapter 19 Functions

Jack Tortolani

2022-11-18

Import your data

Create Data frame functions

Example 1: count columns

code snippets

Turn them into a function

Adding arguments for details of operation

Example 2: count rows

code snippets

Turn them into a function

Example 3: count rows

code snippets

Turn them into a function