| Function | Works |
|---|---|
tidypredict_fit(), tidypredict_sql(),
parse_model() |
✔ |
tidypredict_to_column() |
✔ |
tidypredict_test() |
✔ |
tidypredict_interval(),
tidypredict_sql_interval() |
✗ |
parsnip |
✗ |
tidypredict_ functionslibrary(Cubist)
data("BostonHousing", package = "mlbench")
model <- Cubist::cubist(x = BostonHousing[, -14], y = BostonHousing$medv, committees = 3)Create the R formula
tidypredict_fit(model)
#> (ifelse(nox >= 0.668, -1.11 + crim * -0.02 + nox * 21.4 + rm *
#> 0.1 + age * -0.003 + dis * 2.93 + ptratio * -0.13 + b * 0.008 +
#> lstat * -0.33, 0) + ifelse(lstat >= 9.59 & nox < 0.668, 23.57 +
#> crim * 0.05 + nox * -5.2 + rm * 3.1 + age * -0.048 + dis *
#> -0.81 + rad * 0.02 + tax * -0.0041 + ptratio * -0.71 + b *
#> 0.01 + lstat * -0.15, 0) + ifelse(lstat < 9.59 & rm < 6.226,
#> 1.18 + crim * 3.83 + rm * 4.3 + age * -0.06 + dis * -0.09 +
#> tax * -0.003 + ptratio * -0.08 + lstat * -0.11, 0) +
#> ifelse(lstat < 9.59 & rm >= 6.226, -4.71 + crim * 2.22 +
#> zn * 0.008 + nox * -1.7 + rm * 9.2 + age * -0.04 + dis *
#> -0.71 + rad * 0.03 + tax * -0.0182 + ptratio * -0.72 +
#> lstat * -0.83, 0) + ifelse(dis < 1.755 & lstat >= 5.12,
#> 122.32 + crim * -0.29 + nox * -21.6 + rm * -3 + dis * -30.88 +
#> rad * 0.02 + tax * -0.001 + b * -0.023 + lstat * -0.73,
#> 0) + ifelse(rm < 6.545 & lstat >= 5.12, 27.8 + crim * -0.16 +
#> zn * 0.007 + nox * -3.9 + rm * 2 + age * -0.035 + dis * -0.7 +
#> rad * 0.28 + tax * -0.0135 + ptratio * -0.6 + b * 0.013 +
#> lstat * -0.25, 0) + ifelse(rm >= 6.545 & lstat >= 5.12, 22.21 +
#> crim * -0.04 + zn * 0.01 + indus * -0.02 + nox * -4 + rm *
#> 4.7 + dis * -0.34 + rad * 0.11 + tax * -0.0248 + ptratio *
#> -0.9 + b * 0.002 + lstat * -0.1, 0) + ifelse(lstat < 5.12 &
#> rm < 8.034, -71.95 + rm * 17 + age * -0.06 + tax * -0.0112 +
#> ptratio * -0.48 + lstat * -0.03, 0) + ifelse(rm >= 8.034 &
#> dis >= 3.199, -32.79 + crim * -0.01 + zn * 0.005 + nox *
#> -1.8 + rm * 12.9 + age * -0.117 + dis * -0.15 + rad * 0.04 +
#> tax * -0.0246 + ptratio * -1.05 + lstat * -0.04, 0) + ifelse(lstat <
#> 5.12 & dis < 3.199, 53.41 + rm * 1.6 + dis * -7.16 + tax *
#> 0.0088 + lstat * -0.68, 0) + ifelse(nox >= 0.668, -36.31 +
#> crim * 0.08 + nox * 48.4 + dis * 7.52 + b * 0.01 + lstat *
#> -0.24, 0) + ifelse(lstat >= 9.53 & nox < 0.668, 28.04 + nox *
#> -4.8 + rm * 2.9 + age * -0.051 + dis * -0.86 + rad * 0.01 +
#> tax * -0.0019 + ptratio * -0.72 + lstat * -0.12, 0) + ifelse(lstat <
#> 9.53, -26.05 + crim * 0.89 + nox * -2.3 + rm * 9.6 + dis *
#> -0.17 + rad * 0.02 + tax * -0.0055 + ptratio * -0.12 + b *
#> 0.001 + lstat * -0.74, 0) + ifelse(lstat < 9.53 & dis < 2.64,
#> 136.67 + crim * 7.2 + nox * -96.6 + rm * 1.1 + tax * -0.0033 +
#> ptratio * -3.31 + lstat * -0.1, 0))/3SQL output example
tidypredict_sql(model, dbplyr::simulate_odbc())
#> <SQL> (((((((((((((CASE WHEN (`nox` >= 0.668) THEN ((((((((-1.11 + `crim` * -0.02) + `nox` * 21.4) + `rm` * 0.1) + `age` * -0.003) + `dis` * 2.93) + `ptratio` * -0.13) + `b` * 0.008) + `lstat` * -0.33) WHEN NOT (`nox` >= 0.668) THEN 0.0 END + CASE WHEN (`lstat` >= 9.59 AND `nox` < 0.668) THEN ((((((((((23.57 + `crim` * 0.05) + `nox` * -5.2) + `rm` * 3.1) + `age` * -0.048) + `dis` * -0.81) + `rad` * 0.02) + `tax` * -0.0041) + `ptratio` * -0.71) + `b` * 0.01) + `lstat` * -0.15) WHEN NOT (`lstat` >= 9.59 AND `nox` < 0.668) THEN 0.0 END) + CASE WHEN (`lstat` < 9.59 AND `rm` < 6.226) THEN (((((((1.18 + `crim` * 3.83) + `rm` * 4.3) + `age` * -0.06) + `dis` * -0.09) + `tax` * -0.003) + `ptratio` * -0.08) + `lstat` * -0.11) WHEN NOT (`lstat` < 9.59 AND `rm` < 6.226) THEN 0.0 END) + CASE WHEN (`lstat` < 9.59 AND `rm` >= 6.226) THEN ((((((((((-4.71 + `crim` * 2.22) + `zn` * 0.008) + `nox` * -1.7) + `rm` * 9.2) + `age` * -0.04) + `dis` * -0.71) + `rad` * 0.03) + `tax` * -0.0182) + `ptratio` * -0.72) + `lstat` * -0.83) WHEN NOT (`lstat` < 9.59 AND `rm` >= 6.226) THEN 0.0 END) + CASE WHEN (`dis` < 1.755 AND `lstat` >= 5.12) THEN ((((((((122.32 + `crim` * -0.29) + `nox` * -21.6) + `rm` * -3.0) + `dis` * -30.88) + `rad` * 0.02) + `tax` * -0.001) + `b` * -0.023) + `lstat` * -0.73) WHEN NOT (`dis` < 1.755 AND `lstat` >= 5.12) THEN 0.0 END) + CASE WHEN (`rm` < 6.545 AND `lstat` >= 5.12) THEN (((((((((((27.8 + `crim` * -0.16) + `zn` * 0.007) + `nox` * -3.9) + `rm` * 2.0) + `age` * -0.035) + `dis` * -0.7) + `rad` * 0.28) + `tax` * -0.0135) + `ptratio` * -0.6) + `b` * 0.013) + `lstat` * -0.25) WHEN NOT (`rm` < 6.545 AND `lstat` >= 5.12) THEN 0.0 END) + CASE WHEN (`rm` >= 6.545 AND `lstat` >= 5.12) THEN (((((((((((22.21 + `crim` * -0.04) + `zn` * 0.01) + `indus` * -0.02) + `nox` * -4.0) + `rm` * 4.7) + `dis` * -0.34) + `rad` * 0.11) + `tax` * -0.0248) + `ptratio` * -0.9) + `b` * 0.002) + `lstat` * -0.1) WHEN NOT (`rm` >= 6.545 AND `lstat` >= 5.12) THEN 0.0 END) + CASE WHEN (`lstat` < 5.12 AND `rm` < 8.034) THEN (((((-71.95 + `rm` * 17.0) + `age` * -0.06) + `tax` * -0.0112) + `ptratio` * -0.48) + `lstat` * -0.03) WHEN NOT (`lstat` < 5.12 AND `rm` < 8.034) THEN 0.0 END) + CASE WHEN (`rm` >= 8.034 AND `dis` >= 3.199) THEN ((((((((((-32.79 + `crim` * -0.01) + `zn` * 0.005) + `nox` * -1.8) + `rm` * 12.9) + `age` * -0.117) + `dis` * -0.15) + `rad` * 0.04) + `tax` * -0.0246) + `ptratio` * -1.05) + `lstat` * -0.04) WHEN NOT (`rm` >= 8.034 AND `dis` >= 3.199) THEN 0.0 END) + CASE WHEN (`lstat` < 5.12 AND `dis` < 3.199) THEN ((((53.41 + `rm` * 1.6) + `dis` * -7.16) + `tax` * 0.0088) + `lstat` * -0.68) WHEN NOT (`lstat` < 5.12 AND `dis` < 3.199) THEN 0.0 END) + CASE WHEN (`nox` >= 0.668) THEN (((((-36.31 + `crim` * 0.08) + `nox` * 48.4) + `dis` * 7.52) + `b` * 0.01) + `lstat` * -0.24) WHEN NOT (`nox` >= 0.668) THEN 0.0 END) + CASE WHEN (`lstat` >= 9.53 AND `nox` < 0.668) THEN ((((((((28.04 + `nox` * -4.8) + `rm` * 2.9) + `age` * -0.051) + `dis` * -0.86) + `rad` * 0.01) + `tax` * -0.0019) + `ptratio` * -0.72) + `lstat` * -0.12) WHEN NOT (`lstat` >= 9.53 AND `nox` < 0.668) THEN 0.0 END) + CASE WHEN (`lstat` < 9.53) THEN (((((((((-26.05 + `crim` * 0.89) + `nox` * -2.3) + `rm` * 9.6) + `dis` * -0.17) + `rad` * 0.02) + `tax` * -0.0055) + `ptratio` * -0.12) + `b` * 0.001) + `lstat` * -0.74) WHEN NOT (`lstat` < 9.53) THEN 0.0 END) + CASE WHEN (`lstat` < 9.53 AND `dis` < 2.64) THEN ((((((136.67 + `crim` * 7.2) + `nox` * -96.6) + `rm` * 1.1) + `tax` * -0.0033) + `ptratio` * -3.31) + `lstat` * -0.1) WHEN NOT (`lstat` < 9.53 AND `dis` < 2.64) THEN 0.0 END) / 3.0Add the prediction to the original table
library(dplyr)
BostonHousing %>%
tidypredict_to_column(model) %>%
glimpse()
#> Rows: 506
#> Columns: 15
#> $ crim <dbl> 0.00632, 0.02731, 0.02729, 0.03237, 0.06905, 0.02985, 0.08829,…
#> $ zn <dbl> 18.0, 0.0, 0.0, 0.0, 0.0, 0.0, 12.5, 12.5, 12.5, 12.5, 12.5, 1…
#> $ indus <dbl> 2.31, 7.07, 7.07, 2.18, 2.18, 2.18, 7.87, 7.87, 7.87, 7.87, 7.…
#> $ chas <fct> 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,…
#> $ nox <dbl> 0.538, 0.469, 0.469, 0.458, 0.458, 0.458, 0.524, 0.524, 0.524,…
#> $ rm <dbl> 6.575, 6.421, 7.185, 6.998, 7.147, 6.430, 6.012, 6.172, 5.631,…
#> $ age <dbl> 65.2, 78.9, 61.1, 45.8, 54.2, 58.7, 66.6, 96.1, 100.0, 85.9, 9…
#> $ dis <dbl> 4.0900, 4.9671, 4.9671, 6.0622, 6.0622, 6.0622, 5.5605, 5.9505…
#> $ rad <dbl> 1, 2, 2, 3, 3, 3, 5, 5, 5, 5, 5, 5, 5, 4, 4, 4, 4, 4, 4, 4, 4,…
#> $ tax <dbl> 296, 242, 242, 222, 222, 222, 311, 311, 311, 311, 311, 311, 31…
#> $ ptratio <dbl> 15.3, 17.8, 17.8, 18.7, 18.7, 18.7, 15.2, 15.2, 15.2, 15.2, 15…
#> $ b <dbl> 396.90, 396.90, 392.83, 394.63, 396.90, 394.12, 395.60, 396.90…
#> $ lstat <dbl> 4.98, 9.14, 4.03, 2.94, 5.33, 5.21, 12.43, 19.15, 29.93, 17.10…
#> $ medv <dbl> 24.0, 21.6, 34.7, 33.4, 36.2, 28.7, 22.9, 27.1, 16.5, 18.9, 15…
#> $ fit <dbl> 27.50665, 22.71805, 34.78128, 33.19372, 31.93653, 25.03739, 21…Confirm that tidypredict results match to the
model’s predict() results
tidypredict_test(model, BostonHousing)
#> tidypredict test results
#> Difference threshold: 1e-12
#>
#> Fitted records above the threshold: 506
#>
#> Fit max difference:
#> Lower max difference:
#> Upper max difference:2.62966510913086Here is an example of the model spec:
pm <- parse_model(model)
str(pm, 2)
#> List of 2
#> $ general:List of 5
#> ..$ model : chr "cubist"
#> ..$ type : chr "tree"
#> ..$ version: num 2
#> ..$ mode : chr "ifelse"
#> ..$ divisor: num 3
#> $ trees :List of 1
#> ..$ :List of 14
#> - attr(*, "class")= chr [1:3] "parsed_model" "pm_tree" "list"str(pm$terms[1:2])
#> NULL