## ----setup-------------------------------------------------------------------- # nolint start library(mlexperiments) library(mllrnrs) ## ----------------------------------------------------------------------------- library(mlbench) data("BostonHousing") dataset <- BostonHousing |> data.table::as.data.table() |> na.omit() feature_cols <- colnames(dataset)[1:13] target_col <- "medv" ## ----------------------------------------------------------------------------- seed <- 123 if (isTRUE(as.logical(Sys.getenv("_R_CHECK_LIMIT_CORES_")))) { # on cran ncores <- 2L } else { ncores <- ifelse( test = parallel::detectCores() > 4, yes = 4L, no = ifelse( test = parallel::detectCores() < 2L, yes = 1L, no = parallel::detectCores() ) ) } options("mlexperiments.bayesian.max_init" = 4L) options("mlexperiments.optim.xgb.nrounds" = 20L) options("mlexperiments.optim.xgb.early_stopping_rounds" = 5L) ## ----------------------------------------------------------------------------- data_split <- splitTools::partition( y = dataset[, get(target_col)], p = c(train = 0.7, test = 0.3), type = "stratified", seed = seed ) train_x <- model.matrix( ~ -1 + ., dataset[data_split$train, .SD, .SDcols = feature_cols] ) train_y <- log(dataset[data_split$train, get(target_col)]) test_x <- model.matrix( ~ -1 + ., dataset[data_split$test, .SD, .SDcols = feature_cols] ) test_y <- log(dataset[data_split$test, get(target_col)]) ## ----------------------------------------------------------------------------- fold_list <- splitTools::create_folds( y = train_y, k = 3, type = "stratified", seed = seed ) ## ----------------------------------------------------------------------------- # required learner arguments, not optimized learner_args <- list( objective = "reg:squarederror", eval_metric = "rmse" ) # set arguments for predict function and performance metric, # required for mlexperiments::MLCrossValidation and # mlexperiments::MLNestedCV predict_args <- NULL performance_metric <- metric("rmsle") performance_metric_args <- NULL return_models <- FALSE # required for grid search and initialization of bayesian optimization parameter_grid <- expand.grid( subsample = seq(0.6, 1, .2), colsample_bytree = seq(0.6, 1, .2), min_child_weight = seq(1, 5, 4), learning_rate = seq(0.1, 0.2, 0.1), max_depth = seq(1, 5, 4) ) # reduce to a maximum of 10 rows if (nrow(parameter_grid) > 10) { set.seed(123) sample_rows <- sample(seq_len(nrow(parameter_grid)), 10, FALSE) parameter_grid <- kdry::mlh_subset(parameter_grid, sample_rows) } # required for bayesian optimization parameter_bounds <- list( subsample = c(0.2, 1), colsample_bytree = c(0.2, 1), min_child_weight = c(1L, 10L), learning_rate = c(0.1, 0.2), max_depth = c(1L, 10L) ) optim_args <- list( n_iter = ncores, kappa = 3.5, acq = "ucb" ) ## ----------------------------------------------------------------------------- tuner <- mlexperiments::MLTuneParameters$new( learner = mllrnrs::LearnerXgboost$new( metric_optimization_higher_better = FALSE ), strategy = "grid", ncores = ncores, seed = seed ) tuner$parameter_grid <- parameter_grid tuner$learner_args <- learner_args tuner$split_type <- "stratified" tuner$set_data( x = train_x, y = train_y ) tuner_results_grid <- tuner$execute(k = 3) #> #> Parameter settings [=====================================>----------------------------------------------------------] 4/10 ( 40%) #> Parameter settings [===============================================>------------------------------------------------] 5/10 ( 50%) #> Parameter settings [=========================================================>--------------------------------------] 6/10 ( 60%) #> Parameter settings [==================================================================>-----------------------------] 7/10 ( 70%) #> Parameter settings [============================================================================>-------------------] 8/10 ( 80%) #> Parameter settings [=====================================================================================>----------] 9/10 ( 90%) #> Parameter settings [===============================================================================================] 10/10 (100%) head(tuner_results_grid) #> setting_id metric_optim_mean nrounds subsample colsample_bytree min_child_weight learning_rate max_depth objective #> #> 1: 1 0.1872223 62 0.6 0.8 5 0.2 1 reg:squarederror #> 2: 2 0.1688788 99 1.0 0.8 5 0.1 5 reg:squarederror #> 3: 3 0.1916676 97 0.8 0.8 5 0.1 1 reg:squarederror #> 4: 4 0.1662343 55 0.6 0.8 5 0.2 5 reg:squarederror #> 5: 5 0.1635528 100 1.0 0.8 1 0.1 5 reg:squarederror #> 6: 6 0.1641982 100 0.8 0.8 5 0.1 5 reg:squarederror #> eval_metric #> #> 1: rmse #> 2: rmse #> 3: rmse #> 4: rmse #> 5: rmse #> 6: rmse ## ----------------------------------------------------------------------------- tuner <- mlexperiments::MLTuneParameters$new( learner = mllrnrs::LearnerXgboost$new( metric_optimization_higher_better = FALSE ), strategy = "bayesian", ncores = ncores, seed = seed ) tuner$parameter_grid <- parameter_grid tuner$parameter_bounds <- parameter_bounds tuner$learner_args <- learner_args tuner$optim_args <- optim_args tuner$split_type <- "stratified" tuner$set_data( x = train_x, y = train_y ) tuner_results_bayesian <- tuner$execute(k = 3) #> #> Registering parallel backend using 4 cores. head(tuner_results_bayesian) #> Epoch setting_id subsample colsample_bytree min_child_weight learning_rate max_depth gpUtility acqOptimum inBounds Elapsed #> #> 1: 0 1 0.6 0.8 5 0.2 1 NA FALSE TRUE 0.915 #> 2: 0 2 1.0 0.8 5 0.1 5 NA FALSE TRUE 1.028 #> 3: 0 3 0.8 0.8 5 0.1 1 NA FALSE TRUE 0.935 #> 4: 0 4 0.6 0.8 5 0.2 5 NA FALSE TRUE 1.013 #> 5: 0 5 1.0 0.8 1 0.1 5 NA FALSE TRUE 0.248 #> 6: 0 6 0.8 0.8 5 0.1 5 NA FALSE TRUE 0.218 #> Score metric_optim_mean nrounds errorMessage objective eval_metric #> #> 1: -0.1872223 0.1872223 62 NA reg:squarederror rmse #> 2: -0.1688788 0.1688788 99 NA reg:squarederror rmse #> 3: -0.1916676 0.1916676 97 NA reg:squarederror rmse #> 4: -0.1662343 0.1662343 55 NA reg:squarederror rmse #> 5: -0.1635528 0.1635528 100 NA reg:squarederror rmse #> 6: -0.1641982 0.1641982 100 NA reg:squarederror rmse ## ----------------------------------------------------------------------------- validator <- mlexperiments::MLCrossValidation$new( learner = mllrnrs::LearnerXgboost$new( metric_optimization_higher_better = FALSE ), fold_list = fold_list, ncores = ncores, seed = seed ) validator$learner_args <- tuner$results$best.setting[-1] validator$predict_args <- predict_args validator$performance_metric <- performance_metric validator$performance_metric_args <- performance_metric_args validator$return_models <- return_models validator$set_data( x = train_x, y = train_y ) validator_results <- validator$execute() #> #> CV fold: Fold1 #> #> CV fold: Fold2 #> #> CV fold: Fold3 head(validator_results) #> fold performance subsample colsample_bytree min_child_weight learning_rate max_depth nrounds objective eval_metric #> #> 1: Fold1 0.03396237 0.6 1 1 0.1 5 99 reg:squarederror rmse #> 2: Fold2 0.05035231 0.6 1 1 0.1 5 99 reg:squarederror rmse #> 3: Fold3 0.03987737 0.6 1 1 0.1 5 99 reg:squarederror rmse ## ----------------------------------------------------------------------------- validator <- mlexperiments::MLNestedCV$new( learner = mllrnrs::LearnerXgboost$new( metric_optimization_higher_better = FALSE ), strategy = "grid", fold_list = fold_list, k_tuning = 3L, ncores = ncores, seed = seed ) validator$parameter_grid <- parameter_grid validator$learner_args <- learner_args validator$split_type <- "stratified" validator$predict_args <- predict_args validator$performance_metric <- performance_metric validator$performance_metric_args <- performance_metric_args validator$return_models <- return_models validator$set_data( x = train_x, y = train_y ) validator_results <- validator$execute() #> #> CV fold: Fold1 #> #> Parameter settings [=====================================>----------------------------------------------------------] 4/10 ( 40%) #> Parameter settings [===============================================>------------------------------------------------] 5/10 ( 50%) #> Parameter settings [=========================================================>--------------------------------------] 6/10 ( 60%) #> Parameter settings [==================================================================>-----------------------------] 7/10 ( 70%) #> Parameter settings [============================================================================>-------------------] 8/10 ( 80%) #> Parameter settings [=====================================================================================>----------] 9/10 ( 90%) #> Parameter settings [===============================================================================================] 10/10 (100%) #> CV fold: Fold2 #> CV progress [====================================================================>-----------------------------------] 2/3 ( 67%) #> #> Parameter settings [============================>-------------------------------------------------------------------] 3/10 ( 30%) #> Parameter settings [=====================================>----------------------------------------------------------] 4/10 ( 40%) #> Parameter settings [===============================================>------------------------------------------------] 5/10 ( 50%) #> Parameter settings [=========================================================>--------------------------------------] 6/10 ( 60%) #> Parameter settings [==================================================================>-----------------------------] 7/10 ( 70%) #> Parameter settings [============================================================================>-------------------] 8/10 ( 80%) #> Parameter settings [=====================================================================================>----------] 9/10 ( 90%) #> Parameter settings [===============================================================================================] 10/10 (100%) #> CV fold: Fold3 #> CV progress [========================================================================================================] 3/3 (100%) #> #> Parameter settings [===============================================>------------------------------------------------] 5/10 ( 50%) #> Parameter settings [=========================================================>--------------------------------------] 6/10 ( 60%) #> Parameter settings [==================================================================>-----------------------------] 7/10 ( 70%) #> Parameter settings [============================================================================>-------------------] 8/10 ( 80%) #> Parameter settings [=====================================================================================>----------] 9/10 ( 90%) #> Parameter settings [===============================================================================================] 10/10 (100%) head(validator_results) #> fold performance nrounds subsample colsample_bytree min_child_weight learning_rate max_depth objective eval_metric #> #> 1: Fold1 0.03942935 53 0.8 0.8 5 0.1 5 reg:squarederror rmse #> 2: Fold2 0.05037283 100 0.6 1.0 1 0.1 5 reg:squarederror rmse #> 3: Fold3 0.04125686 35 0.6 1.0 5 0.2 5 reg:squarederror rmse ## ----------------------------------------------------------------------------- validator <- mlexperiments::MLNestedCV$new( learner = mllrnrs::LearnerXgboost$new( metric_optimization_higher_better = FALSE ), strategy = "bayesian", fold_list = fold_list, k_tuning = 3L, ncores = ncores, seed = seed ) validator$parameter_grid <- parameter_grid validator$learner_args <- learner_args validator$split_type <- "stratified" validator$parameter_bounds <- parameter_bounds validator$optim_args <- optim_args validator$predict_args <- predict_args validator$performance_metric <- performance_metric validator$performance_metric_args <- performance_metric_args validator$return_models <- TRUE validator$set_data( x = train_x, y = train_y ) validator_results <- validator$execute() #> #> CV fold: Fold1 #> #> Registering parallel backend using 4 cores. #> #> CV fold: Fold2 #> CV progress [====================================================================>-----------------------------------] 2/3 ( 67%) #> #> Registering parallel backend using 4 cores. #> #> CV fold: Fold3 #> CV progress [========================================================================================================] 3/3 (100%) #> #> Registering parallel backend using 4 cores. head(validator_results) #> fold performance subsample colsample_bytree min_child_weight learning_rate max_depth nrounds objective eval_metric #> #> 1: Fold1 0.04712865 0.5029800 0.4977050 6 0.1195995 2 53 reg:squarederror rmse #> 2: Fold2 0.05054316 0.4489853 0.7725962 2 0.2000000 5 65 reg:squarederror rmse #> 3: Fold3 0.04027241 0.7465061 0.8234365 1 0.2000000 5 29 reg:squarederror rmse ## ----------------------------------------------------------------------------- preds_xgboost <- mlexperiments::predictions( object = validator, newdata = test_x ) ## ----------------------------------------------------------------------------- perf_xgboost <- mlexperiments::performance( object = validator, prediction_results = preds_xgboost, y_ground_truth = test_y, type = "regression" ) perf_xgboost #> model performance SSE MSE RMSE MEDSE SAE MAE MEDAE RSQ EXPVAR RRSE #> #> 1: Fold1 0.04135927 4.102050 0.02646484 0.1626802 0.006572713 17.66284 0.1139538 0.08107227 0.8278688 0.8280100 0.4148870 #> 2: Fold2 0.04757084 4.799370 0.03096368 0.1759650 0.006181385 19.54728 0.1261115 0.07862178 0.7986077 0.9943971 0.4487675 #> 3: Fold3 0.03918577 3.567998 0.02301934 0.1517213 0.006275152 17.01818 0.1097947 0.07921586 0.8502788 0.8048249 0.3869382 #> RAE MAPE KendallTau SpearmanRho #> #> 1: 0.3847300 0.03826134 0.7533943 0.9036017 #> 2: 0.4257766 0.04426443 0.7628554 0.9148171 #> 3: 0.3706880 0.03763162 0.7815047 0.9278985 ## ----include=FALSE------------------------------------------------------------ # nolint end