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Simplifies plotting of database and sparklyr data

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dbplot

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Leverages dplyr to process the calculations of a plot inside a database. This package provides helper functions that abstract the work at three levels:

  1. Functions that ouput a ggplot2 object
  2. Functions that outputs a data.frame object with the calculations
  3. Creates the formula needed to calculate bins for a Histogram or a Raster plot

Installation

You can install the released version from CRAN:

# install.packages("dbplot")

Or the the development version from GitHub, using the remotes package:

# install.packages("remotes")
# remotes::install_github("edgararuiz/dbplot")

Connecting to a data source

Example

In addition to database connections, the functions work with sparklyr. A Spark DataFrame will be used for the examples in this README.

library(sparklyr)
sc <- spark_connect(master = "local")
spark_flights <- copy_to(sc, nycflights13::flights, "flights")

ggplot

Histogram

By default dbplot_histogram() creates a 30 bin histogram

library(ggplot2)

spark_flights %>% 
  dbplot_histogram(distance)

Use binwidth to fix the bin size

spark_flights %>% 
  dbplot_histogram(distance, binwidth = 400)

Because it outputs a ggplot2 object, more customization can be done

spark_flights %>% 
  dbplot_histogram(distance, binwidth = 400) +
  labs(title = "Flights - Distance traveled") +
  theme_bw()

Raster

To visualize two continuous variables, we typically resort to a Scatter plot. However, this may not be practical when visualizing millions or billions of dots representing the intersections of the two variables. A Raster plot may be a better option, because it concentrates the intersections into squares that are easier to parse visually.

A Raster plot basically does the same as a Histogram. It takes two continuous variables and creates discrete 2-dimensional bins represented as squares in the plot. It then determines either the number of rows inside each square or processes some aggregation, like an average.

  • If no fill argument is passed, the default calculation will be count, n()
spark_flights %>%
  dbplot_raster(sched_dep_time, sched_arr_time) 

  • Pass an aggregation formula that can run inside the database
spark_flights %>%
  dbplot_raster(
    sched_dep_time, 
    sched_arr_time, 
    mean(distance, na.rm = TRUE)
    ) 

  • Increase or decrease for more, or less, definition. The resolution argument controls that, it defaults to 100
spark_flights %>%
  dbplot_raster(
    sched_dep_time, 
    sched_arr_time, 
    mean(distance, na.rm = TRUE),
    resolution = 20
    ) 

Bar Plot

  • dbplot_bar() defaults to a tally() of each value in a discrete variable
spark_flights %>%
  dbplot_bar(origin)

  • Pass a formula, and column name, that will be operated for each value in the discrete variable
spark_flights %>%
  dbplot_bar(origin, avg_delay =  mean(dep_delay, na.rm = TRUE))

Line plot

  • dbplot_line() defaults to a tally() of each value in a discrete variable
spark_flights %>%
  dbplot_line(month)

  • Pass a formula that will be operated for each value in the discrete variable
spark_flights %>%
  dbplot_line(month, avg_delay = mean(dep_delay, na.rm = TRUE))

Boxplot

  • It expects a discrete variable to group by, and a continuous variable to calculate the percentiles and IQR. It doesn’t calculate outliers. Currently, this feature works with sparklyr and Hive connections.
spark_flights %>%
  dbplot_boxplot(origin, dep_delay)

Calculation functions

If a more customized plot is needed, the data the underpins the plots can also be accessed:

  1. db_compute_bins() - Returns a data frame with the bins and count per bin
  2. db_compute_count() - Returns a data frame with the count per discrete value
  3. db_compute_raster() - Returns a data frame with the results per x/y intersection
  4. db_compute_raster2() - Returns same as db_compute_raster() function plus the coordinates of the x/y boxes
  5. db_compute_boxplot() - Returns a data frame with boxplot calculations
spark_flights %>%
  db_compute_bins(arr_delay) 
## # A tibble: 28 x 2
##    arr_delay  count
##        <dbl>  <dbl>
##  1      4.53  79784
##  2    -40.7  207999
##  3     95.1    7890
##  4     49.8   19063
##  5    819.        8
##  6    140.     3746
##  7    321.      232
##  8    231.      921
##  9    -86      5325
## 10    186.     1742
## # … with 18 more rows

The data can be piped to a plot

spark_flights %>%
  filter(arr_delay < 100 , arr_delay > -50) %>%
  db_compute_bins(arr_delay) %>%
  ggplot() +
  geom_col(aes(arr_delay, count, fill = count))

db_bin()

Uses ‘rlang’ to build the formula needed to create the bins of a numeric variable in an un-evaluated fashion. This way, the formula can be then passed inside a dplyr verb.

db_bin(var)
## (((max(var, na.rm = TRUE) - min(var, na.rm = TRUE))/30) * ifelse(as.integer(floor((var - 
##     min(var, na.rm = TRUE))/((max(var, na.rm = TRUE) - min(var, 
##     na.rm = TRUE))/30))) == 30, as.integer(floor((var - min(var, 
##     na.rm = TRUE))/((max(var, na.rm = TRUE) - min(var, na.rm = TRUE))/30))) - 
##     1, as.integer(floor((var - min(var, na.rm = TRUE))/((max(var, 
##     na.rm = TRUE) - min(var, na.rm = TRUE))/30))))) + min(var, 
##     na.rm = TRUE)
spark_flights %>%
  group_by(x = !! db_bin(arr_delay)) %>%
  tally()
## # Source: spark<?> [?? x 2]
##         x      n
##     <dbl>  <dbl>
##  1   4.53  79784
##  2 -40.7  207999
##  3  95.1    7890
##  4  49.8   19063
##  5 819.        8
##  6 140.     3746
##  7 321.      232
##  8 231.      921
##  9 -86      5325
## 10 186.     1742
## # … with more rows
spark_flights %>%
  filter(!is.na(arr_delay)) %>%
  group_by(x = !! db_bin(arr_delay)) %>%
  tally()%>%
  collect %>%
  ggplot() +
  geom_col(aes(x, n))

spark_disconnect(sc)

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