Fit models inside the database. modeldb works with most databases back-ends because it leverages dplyr and dbplyr for the final SQL translation of the algorithm. It currently supports:
K-means clustering
Linear regression
Install the CRAN version with:
The development version is available using devtools as follows:
An easy way to try out the package is by creating a temporary SQLite database, and loading mtcars to it
con <- DBI::dbConnect(RSQLite::SQLite(), path = ":memory:")
RSQLite::initExtension(con)
dplyr::copy_to(con, mtcars)## # A tibble: 1 x 3
## `(Intercept)` mpg qsec
## <dbl> <dbl> <dbl>
## 1 4.12 -0.156 0.125The model output can be parsed by tidypredict to run the predictions in the database. Please see the Linear Regression article to learn more about how to use linear_regression_db()
To use the simple_kmeans_db() function, simply pipe the database back end table to the function. This returns a list object that contains two items:
## [1] "k_center" "k_mpg" "k_wt" "mpg" "cyl" "disp"
## [7] "hp" "drat" "wt" "qsec" "vs" "am"
## [13] "gear" "carb"The SQL statement from tbl can be extracted using dbplyr’s remote_query()
## <SQL> SELECT `RHS`.`center` AS `k_center`, `LHS`.`k_mpg` AS `k_mpg`, `LHS`.`k_wt` AS `k_wt`, `RHS`.`mpg` AS `mpg`, `RHS`.`cyl` AS `cyl`, `RHS`.`disp` AS `disp`, `RHS`.`hp` AS `hp`, `RHS`.`drat` AS `drat`, `RHS`.`wt` AS `wt`, `RHS`.`qsec` AS `qsec`, `RHS`.`vs` AS `vs`, `RHS`.`am` AS `am`, `RHS`.`gear` AS `gear`, `RHS`.`carb` AS `carb`
## FROM (SELECT `center` AS `k_center`, `mpg` AS `k_mpg`, `wt` AS `k_wt`
## FROM (SELECT `center`, AVG(`mpg`) AS `mpg`, AVG(`wt`) AS `wt`
## FROM (SELECT `mpg`, `wt`, `center`
## FROM (SELECT *
## FROM (SELECT `mpg`, `cyl`, `disp`, `hp`, `drat`, `wt`, `qsec`, `vs`, `am`, `gear`, `carb`, `center_1`, `center_2`, `center_3`, CASE
## WHEN (`center_1` >= `center_1` AND `center_1` < `center_2` AND `center_1` < `center_3`) THEN ('center_1')
## WHEN (`center_2` < `center_1` AND `center_2` >= `center_2` AND `center_2` < `center_3`) THEN ('center_2')
## WHEN (`center_3` < `center_1` AND `center_3` < `center_2` AND `center_3` >= `center_3`) THEN ('center_3')
## END AS `center`
## FROM (SELECT `mpg`, `cyl`, `disp`, `hp`, `drat`, `wt`, `qsec`, `vs`, `am`, `gear`, `carb`, SQRT(((20.6428571428571 - `mpg`) * (20.6428571428571 - `mpg`)) + ((3.07214285714286 - `wt`) * (3.07214285714286 - `wt`))) AS `center_1`, SQRT(((14.4583333333333 - `mpg`) * (14.4583333333333 - `mpg`)) + ((4.05866666666667 - `wt`) * (4.05866666666667 - `wt`))) AS `center_2`, SQRT(((30.0666666666667 - `mpg`) * (30.0666666666667 - `mpg`)) + ((1.873 - `wt`) * (1.873 - `wt`))) AS `center_3`
## FROM `mtcars`))
## WHERE (NOT(((`center`) IS NULL)))))
## GROUP BY `center`)) AS `LHS`
## RIGHT JOIN (SELECT `mpg`, `cyl`, `disp`, `hp`, `drat`, `wt`, `qsec`, `vs`, `am`, `gear`, `carb`, `center`
## FROM (SELECT `mpg`, `cyl`, `disp`, `hp`, `drat`, `wt`, `qsec`, `vs`, `am`, `gear`, `carb`, `center_1`, `center_2`, `center_3`, CASE
## WHEN (`center_1` >= `center_1` AND `center_1` < `center_2` AND `center_1` < `center_3`) THEN ('center_1')
## WHEN (`center_2` < `center_1` AND `center_2` >= `center_2` AND `center_2` < `center_3`) THEN ('center_2')
## WHEN (`center_3` < `center_1` AND `center_3` < `center_2` AND `center_3` >= `center_3`) THEN ('center_3')
## END AS `center`
## FROM (SELECT `mpg`, `cyl`, `disp`, `hp`, `drat`, `wt`, `qsec`, `vs`, `am`, `gear`, `carb`, SQRT(((20.6428571428571 - `mpg`) * (20.6428571428571 - `mpg`)) + ((3.07214285714286 - `wt`) * (3.07214285714286 - `wt`))) AS `center_1`, SQRT(((14.4583333333333 - `mpg`) * (14.4583333333333 - `mpg`)) + ((4.05866666666667 - `wt`) * (4.05866666666667 - `wt`))) AS `center_2`, SQRT(((30.0666666666667 - `mpg`) * (30.0666666666667 - `mpg`)) + ((1.873 - `wt`) * (1.873 - `wt`))) AS `center_3`
## FROM `mtcars`))
## WHERE (NOT(((`center`) IS NULL)))) AS `RHS`
## ON (`LHS`.`k_center` = `RHS`.`center`)