test_that("Booster$finalize() should not fail", { X <- as.matrix(as.integer(iris[, "Species"]), ncol = 1L) y <- iris[["Sepal.Length"]] dtrain <- lgb.Dataset(X, label = y) bst <- lgb.train( data = dtrain , params = list( objective = "regression" , num_threads = .LGB_MAX_THREADS ) , verbose = .LGB_VERBOSITY , nrounds = 3L ) expect_true(.is_Booster(bst)) expect_false(.is_null_handle(bst$.__enclos_env__$private$handle)) bst$finalize() expect_true(.is_null_handle(bst$.__enclos_env__$private$handle)) # calling finalize() a second time shouldn't cause any issues bst$finalize() expect_true(.is_null_handle(bst$.__enclos_env__$private$handle)) }) test_that("lgb.get.eval.result() should throw an informative error if booster is not an lgb.Booster", { bad_inputs <- list( matrix(1.0:10.0, 2L, 5L) , TRUE , c("a", "b") , NA , 10L , lgb.Dataset( data = matrix(1.0:10.0, 2L, 5L) , params = list() ) ) for (bad_input in bad_inputs) { expect_error({ lgb.get.eval.result( booster = bad_input , data_name = "test" , eval_name = "l2" ) }, regexp = "Can only use", fixed = TRUE) } }) test_that("lgb.get.eval.result() should throw an informative error for incorrect data_name", { data(agaricus.train, package = "lightgbm") data(agaricus.test, package = "lightgbm") dtrain <- lgb.Dataset( agaricus.train$data , label = agaricus.train$label ) model <- lgb.train( params = list( objective = "regression" , metric = "l2" , min_data = 1L , learning_rate = 1.0 , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , data = dtrain , nrounds = 5L , valids = list( "test" = lgb.Dataset.create.valid( dtrain , agaricus.test$data , label = agaricus.test$label ) ) ) expect_error({ eval_results <- lgb.get.eval.result( booster = model , data_name = "testing" , eval_name = "l2" ) }, regexp = "Only the following datasets exist in record evals: [test]", fixed = TRUE) }) test_that("lgb.get.eval.result() should throw an informative error for incorrect eval_name", { data(agaricus.train, package = "lightgbm") data(agaricus.test, package = "lightgbm") dtrain <- lgb.Dataset( agaricus.train$data , label = agaricus.train$label ) model <- lgb.train( params = list( objective = "regression" , metric = "l2" , min_data = 1L , learning_rate = 1.0 , verbose = .LGB_VERBOSITY ) , data = dtrain , nrounds = 5L , valids = list( "test" = lgb.Dataset.create.valid( dtrain , agaricus.test$data , label = agaricus.test$label ) ) ) expect_error({ eval_results <- lgb.get.eval.result( booster = model , data_name = "test" , eval_name = "l1" ) }, regexp = "Only the following eval_names exist for dataset.*\\: \\[l2\\]", fixed = FALSE) }) test_that("lgb.load() gives the expected error messages given different incorrect inputs", { set.seed(708L) data(agaricus.train, package = "lightgbm") data(agaricus.test, package = "lightgbm") train <- agaricus.train test <- agaricus.test bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = list( objective = "binary" , num_leaves = 4L , learning_rate = 1.0 , verbose = .LGB_VERBOSITY ) , nrounds = 2L ) # you have to give model_str or filename expect_error({ lgb.load() }, regexp = "either filename or model_str must be given") expect_error({ lgb.load(filename = NULL, model_str = NULL) }, regexp = "either filename or model_str must be given") # if given, filename should be a string that points to an existing file model_file <- tempfile(fileext = ".model") expect_error({ lgb.load(filename = list(model_file)) }, regexp = "filename should be character") file_to_check <- paste0("a.model") while (file.exists(file_to_check)) { file_to_check <- paste0("a", file_to_check) } expect_error({ lgb.load(filename = file_to_check) }, regexp = "passed to filename does not exist") # if given, model_str should be a string expect_error({ lgb.load(model_str = c(4.0, 5.0, 6.0)) }, regexp = "lgb.load: model_str should be a character/raw vector") }) test_that("Loading a Booster from a text file works", { set.seed(708L) data(agaricus.train, package = "lightgbm") data(agaricus.test, package = "lightgbm") train <- agaricus.train test <- agaricus.test params <- list( num_leaves = 4L , boosting = "rf" , bagging_fraction = 0.8 , bagging_freq = 1L , boost_from_average = FALSE , categorical_feature = c(1L, 2L) , interaction_constraints = list(c(1L, 2L), 1L) , feature_contri = rep(0.5, ncol(train$data)) , metric = c("mape", "average_precision") , learning_rate = 1.0 , objective = "binary" , verbosity = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = params , nrounds = 2L ) expect_true(.is_Booster(bst)) pred <- predict(bst, test$data) model_file <- tempfile(fileext = ".model") lgb.save(bst, model_file) # finalize the booster and destroy it so you know we aren't cheating bst$finalize() expect_null(bst$.__enclos_env__$private$handle) rm(bst) bst2 <- lgb.load( filename = model_file ) pred2 <- predict(bst2, test$data) expect_identical(pred, pred2) # check that the parameters are loaded correctly expect_equal(bst2$params[names(params)], params) }) test_that("boosters with linear models at leaves can be written to text file and re-loaded successfully", { X <- matrix(rnorm(100L), ncol = 1L) labels <- 2L * X + runif(nrow(X), 0L, 0.1) dtrain <- lgb.Dataset( data = X , label = labels ) params <- list( objective = "regression" , verbose = -1L , metric = "mse" , seed = 0L , num_leaves = 2L , num_threads = .LGB_MAX_THREADS ) bst <- lgb.train( data = dtrain , nrounds = 10L , params = params , verbose = .LGB_VERBOSITY ) expect_true(.is_Booster(bst)) # save predictions, then write the model to a file and destroy it in R preds <- predict(bst, X) model_file <- tempfile(fileext = ".model") lgb.save(bst, model_file) bst$finalize() expect_null(bst$.__enclos_env__$private$handle) rm(bst) # load the booster and make predictions...should be the same bst2 <- lgb.load( filename = model_file ) preds2 <- predict(bst2, X) expect_identical(preds, preds2) }) test_that("Loading a Booster from a string works", { set.seed(708L) data(agaricus.train, package = "lightgbm") data(agaricus.test, package = "lightgbm") train <- agaricus.train test <- agaricus.test bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = 2L ) expect_true(.is_Booster(bst)) pred <- predict(bst, test$data) model_string <- bst$save_model_to_string() # finalize the booster and destroy it so you know we aren't cheating bst$finalize() expect_null(bst$.__enclos_env__$private$handle) rm(bst) bst2 <- lgb.load( model_str = model_string ) pred2 <- predict(bst2, test$data) expect_identical(pred, pred2) }) test_that("Saving a large model to string should work", { set.seed(708L) data(agaricus.train, package = "lightgbm") train <- agaricus.train bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = list( num_leaves = 100L , learning_rate = 0.01 , objective = "binary" , num_threads = .LGB_MAX_THREADS ) , nrounds = 500L , verbose = .LGB_VERBOSITY ) pred <- predict(bst, train$data) pred_leaf_indx <- predict(bst, train$data, type = "leaf") pred_raw_score <- predict(bst, train$data, type = "raw") model_string <- bst$save_model_to_string() # make sure this test is still producing a model bigger than the default # buffer size used in LGBM_BoosterSaveModelToString_R expect_gt(nchar(model_string), 1024L * 1024L) # finalize the booster and destroy it so you know we aren't cheating bst$finalize() expect_null(bst$.__enclos_env__$private$handle) rm(bst) # make sure a new model can be created from this string, and that it # produces expected results bst2 <- lgb.load( model_str = model_string ) pred2 <- predict(bst2, train$data) pred2_leaf_indx <- predict(bst2, train$data, type = "leaf") pred2_raw_score <- predict(bst2, train$data, type = "raw") expect_identical(pred, pred2) expect_identical(pred_leaf_indx, pred2_leaf_indx) expect_identical(pred_raw_score, pred2_raw_score) }) test_that("Saving a large model to JSON should work", { set.seed(708L) data(agaricus.train, package = "lightgbm") train <- agaricus.train bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = list( num_leaves = 100L , learning_rate = 0.01 , objective = "binary" , num_threads = .LGB_MAX_THREADS ) , nrounds = 200L , verbose = .LGB_VERBOSITY ) model_json <- bst$dump_model() # make sure this test is still producing a model bigger than the default # buffer size used in LGBM_BoosterDumpModel_R expect_gt(nchar(model_json), 1024L * 1024L) # check that it is valid JSON that looks like a LightGBM model model_list <- jsonlite::fromJSON(model_json) expect_equal(model_list[["objective"]], "binary sigmoid:1") }) test_that("If a string and a file are both passed to lgb.load() the file is used model_str is totally ignored", { set.seed(708L) data(agaricus.train, package = "lightgbm") data(agaricus.test, package = "lightgbm") train <- agaricus.train test <- agaricus.test bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = 2L ) expect_true(.is_Booster(bst)) pred <- predict(bst, test$data) model_file <- tempfile(fileext = ".model") lgb.save(bst, model_file) # finalize the booster and destroy it so you know we aren't cheating bst$finalize() expect_null(bst$.__enclos_env__$private$handle) rm(bst) bst2 <- lgb.load( filename = model_file , model_str = 4.0 ) pred2 <- predict(bst2, test$data) expect_identical(pred, pred2) }) test_that("Creating a Booster from a Dataset should work", { set.seed(708L) data(agaricus.train, package = "lightgbm") data(agaricus.test, package = "lightgbm") dtrain <- lgb.Dataset( agaricus.train$data , label = agaricus.train$label ) bst <- Booster$new( params = list( objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ), train_set = dtrain ) expect_true(.is_Booster(bst)) expect_equal(bst$current_iter(), 0L) expect_true(is.na(bst$best_score)) expect_true(all(bst$predict(agaricus.train$data) == 0.5)) }) test_that("Creating a Booster from a Dataset with an existing predictor should work", { set.seed(708L) data(agaricus.train, package = "lightgbm") nrounds <- 2L bst <- lightgbm( data = as.matrix(agaricus.train$data) , label = agaricus.train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = nrounds ) data(agaricus.test, package = "lightgbm") dtest <- Dataset$new( data = agaricus.test$data , label = agaricus.test$label , predictor = bst$to_predictor() ) bst_from_ds <- Booster$new( train_set = dtest , params = list( verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) ) expect_true(.is_Booster(bst)) expect_equal(bst$current_iter(), nrounds) expect_equal(bst$eval_train()[[1L]][["value"]], 0.1115352) expect_true(.is_Booster(bst_from_ds)) expect_equal(bst_from_ds$current_iter(), nrounds) expect_equal(bst_from_ds$eval_train()[[1L]][["value"]], 5.65704892) dumped_model <- jsonlite::fromJSON(bst$dump_model()) }) test_that("Booster$eval() should work on a Dataset stored in a binary file", { set.seed(708L) data(agaricus.train, package = "lightgbm") train <- agaricus.train dtrain <- lgb.Dataset(train$data, label = train$label) bst <- lgb.train( params = list( objective = "regression" , metric = "l2" , num_leaves = 4L , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , data = dtrain , nrounds = 2L ) data(agaricus.test, package = "lightgbm") test <- agaricus.test dtest <- lgb.Dataset.create.valid( dataset = dtrain , data = test$data , label = test$label ) dtest$construct() eval_in_mem <- bst$eval( data = dtest , name = "test" ) test_file <- tempfile(pattern = "lgb.Dataset_") lgb.Dataset.save( dataset = dtest , fname = test_file ) rm(dtest) eval_from_file <- bst$eval( data = lgb.Dataset( data = test_file , params = list(verbose = .LGB_VERBOSITY, num_threads = .LGB_MAX_THREADS) )$construct() , name = "test" ) expect_true(abs(eval_in_mem[[1L]][["value"]] - 0.1744423) < .LGB_NUMERIC_TOLERANCE) # refer to https://github.com/microsoft/LightGBM/issues/4680 if (isTRUE(.LGB_ON_WINDOWS)) { expect_equal(eval_in_mem, eval_from_file) } else { expect_identical(eval_in_mem, eval_from_file) } }) test_that("Booster$rollback_one_iter() should work as expected", { set.seed(708L) data(agaricus.train, package = "lightgbm") data(agaricus.test, package = "lightgbm") train <- agaricus.train test <- agaricus.test nrounds <- 5L bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = nrounds ) expect_equal(bst$current_iter(), nrounds) expect_true(.is_Booster(bst)) logloss <- bst$eval_train()[[1L]][["value"]] expect_equal(logloss, 0.01904786) x <- bst$rollback_one_iter() # rollback_one_iter() should return a booster and modify the original # booster in place expect_true(.is_Booster(x)) expect_equal(bst$current_iter(), nrounds - 1L) # score should now come from the model as of 4 iterations logloss <- bst$eval_train()[[1L]][["value"]] expect_equal(logloss, 0.027915146) }) test_that("Booster$update() passing a train_set works as expected", { set.seed(708L) data(agaricus.train, package = "lightgbm") nrounds <- 2L # train with 2 rounds and then update bst <- lightgbm( data = as.matrix(agaricus.train$data) , label = agaricus.train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = nrounds ) expect_true(.is_Booster(bst)) expect_equal(bst$current_iter(), nrounds) bst$update( train_set = Dataset$new( data = agaricus.train$data , label = agaricus.train$label , params = list(verbose = .LGB_VERBOSITY) ) ) expect_true(.is_Booster(bst)) expect_equal(bst$current_iter(), nrounds + 1L) # train with 3 rounds directly bst2 <- lightgbm( data = as.matrix(agaricus.train$data) , label = agaricus.train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = nrounds + 1L ) expect_true(.is_Booster(bst2)) expect_equal(bst2$current_iter(), nrounds + 1L) # model with 2 rounds + 1 update should be identical to 3 rounds expect_equal(bst2$eval_train()[[1L]][["value"]], 0.04806585) expect_equal(bst$eval_train()[[1L]][["value"]], bst2$eval_train()[[1L]][["value"]]) }) test_that("Booster$update() throws an informative error if you provide a non-Dataset to update()", { set.seed(708L) data(agaricus.train, package = "lightgbm") nrounds <- 2L # train with 2 rounds and then update bst <- lightgbm( data = as.matrix(agaricus.train$data) , label = agaricus.train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = nrounds ) expect_error({ bst$update( train_set = data.frame(x = rnorm(10L)) ) }, regexp = "lgb.Booster.update: Only can use lgb.Dataset", fixed = TRUE) }) test_that("Booster should store parameters and Booster$reset_parameter() should update them", { data(agaricus.train, package = "lightgbm") dtrain <- lgb.Dataset( agaricus.train$data , label = agaricus.train$label ) # testing that this works for some cases that could break it: # - multiple metrics # - using "metric", "boosting", "num_class" in params params <- list( objective = "multiclass" , max_depth = 4L , bagging_fraction = 0.8 , metric = c("multi_logloss", "multi_error") , boosting = "gbdt" , num_class = 5L , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) bst <- Booster$new( params = params , train_set = dtrain ) expect_identical(bst$params, params) params[["bagging_fraction"]] <- 0.9 ret_bst <- bst$reset_parameter(params = params) expect_identical(ret_bst$params, params) expect_identical(bst$params, params) }) test_that("Booster$params should include dataset params, before and after Booster$reset_parameter()", { data(agaricus.train, package = "lightgbm") dtrain <- lgb.Dataset( agaricus.train$data , label = agaricus.train$label , params = list( max_bin = 17L ) ) params <- list( objective = "binary" , max_depth = 4L , bagging_fraction = 0.8 , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) bst <- Booster$new( params = params , train_set = dtrain ) expect_identical( bst$params , list( objective = "binary" , max_depth = 4L , bagging_fraction = 0.8 , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS , max_bin = 17L ) ) params[["bagging_fraction"]] <- 0.9 ret_bst <- bst$reset_parameter(params = params) expected_params <- list( objective = "binary" , max_depth = 4L , bagging_fraction = 0.9 , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS , max_bin = 17L ) expect_identical(ret_bst$params, expected_params) expect_identical(bst$params, expected_params) }) test_that("Saving a model with different feature importance types works", { set.seed(708L) data(agaricus.train, package = "lightgbm") train <- agaricus.train bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = 2L ) expect_true(.is_Booster(bst)) .feat_importance_from_string <- function(model_string) { file_lines <- strsplit(model_string, "\n", fixed = TRUE)[[1L]] start_indx <- which(grepl("^feature_importances\\:$", file_lines)) + 1L blank_line_indices <- which(file_lines == "") end_indx <- blank_line_indices[blank_line_indices > start_indx][1L] - 1L importances <- file_lines[start_indx: end_indx] return(importances) } GAIN_IMPORTANCE <- 1L model_string <- bst$save_model_to_string(feature_importance_type = GAIN_IMPORTANCE) expect_equal( .feat_importance_from_string(model_string) , c( "odor=none=4010" , "stalk-root=club=1163" , "stalk-root=rooted=573" , "stalk-surface-above-ring=silky=450" , "spore-print-color=green=397" , "gill-color=buff=281" ) ) SPLIT_IMPORTANCE <- 0L model_string <- bst$save_model_to_string(feature_importance_type = SPLIT_IMPORTANCE) expect_equal( .feat_importance_from_string(model_string) , c( "odor=none=1" , "gill-color=buff=1" , "stalk-root=club=1" , "stalk-root=rooted=1" , "stalk-surface-above-ring=silky=1" , "spore-print-color=green=1" ) ) }) test_that("Saving a model with unknown importance type fails", { set.seed(708L) data(agaricus.train, package = "lightgbm") train <- agaricus.train bst <- lightgbm( data = as.matrix(train$data) , label = train$label , params = list( num_leaves = 4L , learning_rate = 1.0 , objective = "binary" , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) , nrounds = 2L ) expect_true(.is_Booster(bst)) UNSUPPORTED_IMPORTANCE <- 2L expect_error({ capture.output({ model_string <- bst$save_model_to_string( feature_importance_type = UNSUPPORTED_IMPORTANCE ) }, type = "message") }, "Unknown importance type") }) .params_from_model_string <- function(model_str) { file_lines <- strsplit(model_str, "\n", fixed = TRUE)[[1L]] start_indx <- which(grepl("^parameters\\:$", file_lines)) + 1L blank_line_indices <- which(file_lines == "") end_indx <- blank_line_indices[blank_line_indices > start_indx][1L] - 1L params <- file_lines[start_indx: end_indx] return(params) } test_that("all parameters are stored correctly with save_model_to_string()", { dtrain <- lgb.Dataset( data = matrix(rnorm(500L), nrow = 100L) , label = rnorm(100L) ) bst <- lgb.train( params = list( objective = "mape" , metric = c("l2", "mae") , num_threads = .LGB_MAX_THREADS , seed = 708L , data_sample_strategy = "bagging" , sub_row = 0.8234 ) , data = dtrain , nrounds = 3L , verbose = .LGB_VERBOSITY ) # entries whose values should reflect params passed to lgb.train() non_default_param_entries <- c( "[objective: mape]" # 'l1' was passed in with alias 'mae' , "[metric: l2,l1]" , "[data_sample_strategy: bagging]" , "[seed: 708]" # this was passed in with alias 'sub_row' , "[bagging_fraction: 0.8234]" , "[num_iterations: 3]" ) # entries with default values of params default_param_entries <- c( "[boosting: gbdt]" , "[tree_learner: serial]" , "[device_type: cpu]" , "[data: ]" , "[valid: ]" , "[learning_rate: 0.1]" , "[num_leaves: 31]" , sprintf("[num_threads: %i]", .LGB_MAX_THREADS) , "[deterministic: 0]" , "[histogram_pool_size: -1]" , "[max_depth: -1]" , "[min_data_in_leaf: 20]" , "[min_sum_hessian_in_leaf: 0.001]" , "[pos_bagging_fraction: 1]" , "[neg_bagging_fraction: 1]" , "[bagging_freq: 0]" , "[bagging_seed: 15415]" , "[feature_fraction: 1]" , "[feature_fraction_bynode: 1]" , "[feature_fraction_seed: 32671]" , "[extra_trees: 0]" , "[extra_seed: 6642]" , "[early_stopping_round: 0]" , "[first_metric_only: 0]" , "[max_delta_step: 0]" , "[lambda_l1: 0]" , "[lambda_l2: 0]" , "[linear_lambda: 0]" , "[min_gain_to_split: 0]" , "[drop_rate: 0.1]" , "[max_drop: 50]" , "[skip_drop: 0.5]" , "[xgboost_dart_mode: 0]" , "[uniform_drop: 0]" , "[drop_seed: 20623]" , "[top_rate: 0.2]" , "[other_rate: 0.1]" , "[min_data_per_group: 100]" , "[max_cat_threshold: 32]" , "[cat_l2: 10]" , "[cat_smooth: 10]" , "[max_cat_to_onehot: 4]" , "[top_k: 20]" , "[monotone_constraints: ]" , "[monotone_constraints_method: basic]" , "[monotone_penalty: 0]" , "[feature_contri: ]" , "[forcedsplits_filename: ]" , "[force_col_wise: 0]" , "[force_row_wise: 0]" , "[refit_decay_rate: 0.9]" , "[cegb_tradeoff: 1]" , "[cegb_penalty_split: 0]" , "[cegb_penalty_feature_lazy: ]" , "[cegb_penalty_feature_coupled: ]" , "[path_smooth: 0]" , "[interaction_constraints: ]" , sprintf("[verbosity: %i]", .LGB_VERBOSITY) , "[saved_feature_importance_type: 0]" , "[use_quantized_grad: 0]" , "[num_grad_quant_bins: 4]" , "[quant_train_renew_leaf: 0]" , "[stochastic_rounding: 1]" , "[linear_tree: 0]" , "[max_bin: 255]" , "[max_bin_by_feature: ]" , "[min_data_in_bin: 3]" , "[bin_construct_sample_cnt: 200000]" , "[data_random_seed: 2350]" , "[is_enable_sparse: 1]" , "[enable_bundle: 1]" , "[use_missing: 1]" , "[zero_as_missing: 0]" , "[feature_pre_filter: 1]" , "[pre_partition: 0]" , "[two_round: 0]" , "[header: 0]" , "[label_column: ]" , "[weight_column: ]" , "[group_column: ]" , "[ignore_column: ]" , "[categorical_feature: ]" , "[forcedbins_filename: ]" , "[precise_float_parser: 0]" , "[parser_config_file: ]" , "[objective_seed: 4309]" , "[num_class: 1]" , "[is_unbalance: 0]" , "[scale_pos_weight: 1]" , "[sigmoid: 1]" , "[boost_from_average: 1]" , "[reg_sqrt: 0]" , "[alpha: 0.9]" , "[fair_c: 1]" , "[poisson_max_delta_step: 0.7]" , "[tweedie_variance_power: 1.5]" , "[lambdarank_truncation_level: 30]" , "[lambdarank_norm: 1]" , "[label_gain: ]" , "[lambdarank_position_bias_regularization: 0]" , "[eval_at: ]" , "[multi_error_top_k: 1]" , "[auc_mu_weights: ]" , "[num_machines: 1]" , "[local_listen_port: 12400]" , "[time_out: 120]" , "[machine_list_filename: ]" , "[machines: ]" , "[gpu_platform_id: -1]" , "[gpu_device_id: -1]" , "[gpu_use_dp: 0]" , "[num_gpu: 1]" ) all_param_entries <- c(non_default_param_entries, default_param_entries) # parameters should match what was passed from the R package model_str <- bst$save_model_to_string() params_in_file <- .params_from_model_string(model_str = model_str) .expect_in(all_param_entries, params_in_file) # early stopping should be off by default expect_equal(sum(startsWith(params_in_file, "[early_stopping_round:")), 1L) expect_equal(sum(params_in_file == "[early_stopping_round: 0]"), 1L) # since save_model_to_string() is used when serializing with saveRDS(), check that parameters all # roundtrip saveRDS()/loadRDS() successfully rds_file <- tempfile() saveRDS(bst, rds_file) bst_rds <- readRDS(rds_file) model_str <- bst_rds$save_model_to_string() params_in_file <- .params_from_model_string(model_str = model_str) .expect_in(all_param_entries, params_in_file) }) test_that("early_stopping, num_iterations are stored correctly in model string even with aliases", { dtrain <- lgb.Dataset( data = matrix(rnorm(500L), nrow = 100L) , label = rnorm(100L) ) dvalid <- lgb.Dataset( data = matrix(rnorm(500L), nrow = 100L) , label = rnorm(100L) ) # num_iterations values (all different) num_iterations <- 4L num_boost_round <- 2L n_iter <- 3L nrounds_kwarg <- 6L # early_stopping_round values (all different) early_stopping_round <- 2L early_stopping_round_kwarg <- 3L n_iter_no_change <- 4L params <- list( objective = "regression" , metric = "l2" , num_boost_round = num_boost_round , num_iterations = num_iterations , n_iter = n_iter , early_stopping_round = early_stopping_round , n_iter_no_change = n_iter_no_change , num_threads = .LGB_MAX_THREADS ) bst <- lgb.train( params = params , data = dtrain , nrounds = nrounds_kwarg , early_stopping_rounds = early_stopping_round_kwarg , valids = list( "random_valid" = dvalid ) , verbose = .LGB_VERBOSITY ) model_str <- bst$save_model_to_string() params_in_file <- .params_from_model_string(model_str = model_str) # parameters should match what was passed from the R package, and the "main" (non-alias) # params values in `params` should be preferred to keyword argumentts or aliases expect_equal(sum(startsWith(params_in_file, "[num_iterations:")), 1L) expect_equal(sum(params_in_file == sprintf("[num_iterations: %s]", num_iterations)), 1L) expect_equal(sum(startsWith(params_in_file, "[early_stopping_round:")), 1L) expect_equal(sum(params_in_file == sprintf("[early_stopping_round: %s]", early_stopping_round)), 1L) # none of the aliases shouold have been written to the model file expect_equal(sum(startsWith(params_in_file, "[num_boost_round:")), 0L) expect_equal(sum(startsWith(params_in_file, "[n_iter:")), 0L) expect_equal(sum(startsWith(params_in_file, "[n_iter_no_change:")), 0L) }) test_that("Booster: method calls Booster with a null handle should raise an informative error and not segfault", { data(agaricus.train, package = "lightgbm") train <- agaricus.train dtrain <- lgb.Dataset(train$data, label = train$label) bst <- lgb.train( params = list( objective = "regression" , metric = "l2" , num_leaves = 8L , num_threads = .LGB_MAX_THREADS ) , data = dtrain , verbose = .LGB_VERBOSITY , nrounds = 5L , valids = list( train = dtrain ) , serializable = FALSE ) tmp_file <- tempfile(fileext = ".rds") saveRDS(bst, tmp_file) rm(bst) bst <- readRDS(tmp_file) .expect_booster_error <- function(object) { error_regexp <- "Attempting to use a Booster which no longer exists" expect_error(object, regexp = error_regexp) } .expect_booster_error({ bst$current_iter() }) .expect_booster_error({ bst$dump_model() }) .expect_booster_error({ bst$eval(data = dtrain, name = "valid") }) .expect_booster_error({ bst$eval_train() }) .expect_booster_error({ bst$lower_bound() }) .expect_booster_error({ bst$predict(data = train$data[seq_len(5L), ]) }) .expect_booster_error({ bst$reset_parameter(params = list(learning_rate = 0.123)) }) .expect_booster_error({ bst$rollback_one_iter() }) .expect_booster_error({ bst$save_raw() }) .expect_booster_error({ bst$save_model(filename = tempfile(fileext = ".model")) }) .expect_booster_error({ bst$save_model_to_string() }) .expect_booster_error({ bst$update() }) .expect_booster_error({ bst$upper_bound() }) predictor <- bst$to_predictor() .expect_booster_error({ predictor$current_iter() }) .expect_booster_error({ predictor$predict(data = train$data[seq_len(5L), ]) }) }) test_that("Booster$new() using a Dataset with a null handle should raise an informative error and not segfault", { data(agaricus.train, package = "lightgbm") train <- agaricus.train dtrain <- lgb.Dataset(train$data, label = train$label) dtrain$construct() tmp_file <- tempfile(fileext = ".bin") saveRDS(dtrain, tmp_file) rm(dtrain) dtrain <- readRDS(tmp_file) expect_error({ bst <- Booster$new( train_set = dtrain , params = list( verbose = .LGB_VERBOSITY ) ) }, regexp = "Attempting to create a Dataset without any raw data") }) test_that("Booster$new() raises informative errors for malformed inputs", { data(agaricus.train, package = "lightgbm") train <- agaricus.train dtrain <- lgb.Dataset(train$data, label = train$label) # no inputs expect_error({ Booster$new() }, regexp = "lgb.Booster: Need at least either training dataset, model file, or model_str") # unrecognized objective expect_error({ capture.output({ Booster$new( params = list(objective = "not_a_real_objective") , train_set = dtrain ) }, type = "message") }, regexp = "Unknown objective type name: not_a_real_objective") # train_set is not a Dataset expect_error({ Booster$new( train_set = data.table::data.table(rnorm(1L:10L)) ) }, regexp = "lgb.Booster: Can only use lgb.Dataset as training data") # model file isn't a string expect_error({ Booster$new( modelfile = list() ) }, regexp = "lgb.Booster: Can only use a string as model file path") # model file doesn't exist expect_error({ capture.output({ Booster$new( params = list() , modelfile = "file-that-does-not-exist.model" ) }, type = "message") }, regexp = "Could not open file-that-does-not-exist.model") # model file doesn't contain a valid LightGBM model model_file <- tempfile(fileext = ".model") writeLines( text = c("make", "good", "predictions") , con = model_file ) expect_error({ capture.output({ Booster$new( params = list() , modelfile = model_file ) }, type = "message") }, regexp = "Unknown model format or submodel type in model file") # malformed model string expect_error({ capture.output({ Booster$new( params = list() , model_str = "a\nb\n" ) }, type = "message") }, regexp = "Model file doesn't specify the number of classes") # model string isn't character or raw expect_error({ Booster$new( model_str = numeric() ) }, regexp = "lgb.Booster: Can only use a character/raw vector as model_str") }) # this is almost identical to the test above it, but for lgb.cv(). A lot of code # is duplicated between lgb.train() and lgb.cv(), and this will catch cases where # one is updated and the other isn't test_that("lgb.cv() correctly handles passing through params to the model file", { dtrain <- lgb.Dataset( data = matrix(rnorm(500L), nrow = 100L) , label = rnorm(100L) ) # num_iterations values (all different) num_iterations <- 4L num_boost_round <- 2L n_iter <- 3L nrounds_kwarg <- 6L # early_stopping_round values (all different) early_stopping_round <- 2L early_stopping_round_kwarg <- 3L n_iter_no_change <- 4L params <- list( objective = "regression" , metric = "l2" , num_boost_round = num_boost_round , num_iterations = num_iterations , n_iter = n_iter , early_stopping_round = early_stopping_round , n_iter_no_change = n_iter_no_change , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) cv_bst <- lgb.cv( params = params , data = dtrain , nrounds = nrounds_kwarg , early_stopping_rounds = early_stopping_round_kwarg , nfold = 3L , verbose = .LGB_VERBOSITY ) for (bst in cv_bst$boosters) { model_str <- bst[["booster"]]$save_model_to_string() params_in_file <- .params_from_model_string(model_str = model_str) # parameters should match what was passed from the R package, and the "main" (non-alias) # params values in `params` should be preferred to keyword argumentts or aliases expect_equal(sum(startsWith(params_in_file, "[num_iterations:")), 1L) expect_equal(sum(params_in_file == sprintf("[num_iterations: %s]", num_iterations)), 1L) expect_equal(sum(startsWith(params_in_file, "[early_stopping_round:")), 1L) expect_equal(sum(params_in_file == sprintf("[early_stopping_round: %s]", early_stopping_round)), 1L) # none of the aliases shouold have been written to the model file expect_equal(sum(startsWith(params_in_file, "[num_boost_round:")), 0L) expect_equal(sum(startsWith(params_in_file, "[n_iter:")), 0L) expect_equal(sum(startsWith(params_in_file, "[n_iter_no_change:")), 0L) } }) test_that("params (including dataset params) should be stored in .rds file for Booster", { data(agaricus.train, package = "lightgbm") dtrain <- lgb.Dataset( agaricus.train$data , label = agaricus.train$label , params = list( max_bin = 17L ) ) params <- list( objective = "binary" , max_depth = 4L , bagging_fraction = 0.8 , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS ) bst <- Booster$new( params = params , train_set = dtrain ) bst_file <- tempfile(fileext = ".rds") saveRDS(bst, file = bst_file) bst_from_file <- readRDS(file = bst_file) expect_identical( bst_from_file$params , list( objective = "binary" , max_depth = 4L , bagging_fraction = 0.8 , verbose = .LGB_VERBOSITY , num_threads = .LGB_MAX_THREADS , max_bin = 17L ) ) }) test_that("Handle is automatically restored when calling predict", { data(agaricus.train, package = "lightgbm") bst <- lightgbm( agaricus.train$data , agaricus.train$label , nrounds = 5L , obj = "binary" , params = list( verbose = .LGB_VERBOSITY ) , num_threads = .LGB_MAX_THREADS ) bst_file <- tempfile(fileext = ".rds") saveRDS(bst, file = bst_file) bst_from_file <- readRDS(file = bst_file) pred_before <- predict(bst, agaricus.train$data) pred_after <- predict(bst_from_file, agaricus.train$data) expect_equal(pred_before, pred_after) }) test_that("boosters with linear models at leaves can be written to RDS and re-loaded successfully", { X <- matrix(rnorm(100L), ncol = 1L) labels <- 2L * X + runif(nrow(X), 0L, 0.1) dtrain <- lgb.Dataset( data = X , label = labels ) params <- list( objective = "regression" , verbose = .LGB_VERBOSITY , metric = "mse" , seed = 0L , num_leaves = 2L , num_threads = .LGB_MAX_THREADS ) bst <- lgb.train( data = dtrain , nrounds = 10L , params = params ) expect_true(.is_Booster(bst)) # save predictions, then write the model to a file and destroy it in R preds <- predict(bst, X) model_file <- tempfile(fileext = ".rds") saveRDS(bst, file = model_file) bst$finalize() expect_null(bst$.__enclos_env__$private$handle) rm(bst) # load the booster and make predictions...should be the same bst2 <- readRDS(file = model_file) preds2 <- predict(bst2, X) expect_identical(preds, preds2) }) test_that("Booster's print, show, and summary work correctly", { .have_same_handle <- function(model, other_model) { expect_equal( model$.__enclos_env__$private$handle , other_model$.__enclos_env__$private$handle ) } .has_expected_content_for_fitted_model <- function(printed_txt) { expect_true(any(startsWith(printed_txt, "LightGBM Model"))) expect_true(any(startsWith(printed_txt, "Fitted to dataset"))) } .has_expected_content_for_finalized_model <- function(printed_txt) { expect_true(any(grepl("^LightGBM Model$", printed_txt))) expect_true(any(grepl("Booster handle is invalid", printed_txt, fixed = TRUE))) } .check_methods_work <- function(model) { #--- should work for fitted models --- # # print() log_txt <- capture.output({ ret <- print(model) }) .have_same_handle(ret, model) .has_expected_content_for_fitted_model(log_txt) # show() log_txt <- capture.output({ ret <- show(model) }) expect_null(ret) .has_expected_content_for_fitted_model(log_txt) # summary() log_txt <- capture.output({ ret <- summary(model) }) .have_same_handle(ret, model) .has_expected_content_for_fitted_model(log_txt) #--- should not fail for finalized models ---# model$finalize() # print() log_txt <- capture.output({ ret <- print(model) }) .has_expected_content_for_finalized_model(log_txt) # show() .have_same_handle(ret, model) log_txt <- capture.output({ ret <- show(model) }) expect_null(ret) .has_expected_content_for_finalized_model(log_txt) # summary() log_txt <- capture.output({ ret <- summary(model) }) .have_same_handle(ret, model) .has_expected_content_for_finalized_model(log_txt) } data("mtcars") model <- lgb.train( params = list( objective = "regression" , min_data_in_leaf = 1L , num_threads = .LGB_MAX_THREADS ) , data = lgb.Dataset( as.matrix(mtcars[, -1L]) , label = mtcars$mpg , params = list( min_data_in_bin = 1L ) ) , verbose = .LGB_VERBOSITY , nrounds = 5L ) .check_methods_work(model) data("iris") model <- lgb.train( params = list(objective = "multiclass", num_class = 3L, num_threads = .LGB_MAX_THREADS) , data = lgb.Dataset( as.matrix(iris[, -5L]) , label = as.numeric(factor(iris$Species)) - 1.0 ) , verbose = .LGB_VERBOSITY , nrounds = 5L ) .check_methods_work(model) # with custom objective .logregobj <- function(preds, dtrain) { labels <- get_field(dtrain, "label") preds <- 1.0 / (1.0 + exp(-preds)) grad <- preds - labels hess <- preds * (1.0 - preds) return(list(grad = grad, hess = hess)) } .evalerror <- function(preds, dtrain) { labels <- get_field(dtrain, "label") preds <- 1.0 / (1.0 + exp(-preds)) err <- as.numeric(sum(labels != (preds > 0.5))) / length(labels) return(list( name = "error" , value = err , higher_better = FALSE )) } model <- lgb.train( data = lgb.Dataset( as.matrix(iris[, -5L]) , label = as.numeric(iris$Species == "virginica") ) , obj = .logregobj , eval = .evalerror , verbose = .LGB_VERBOSITY , nrounds = 5L , params = list(num_threads = .LGB_MAX_THREADS) ) .check_methods_work(model) }) test_that("LGBM_BoosterGetNumFeature_R returns correct outputs", { data("mtcars") model <- lgb.train( params = list( objective = "regression" , min_data_in_leaf = 1L , num_threads = .LGB_MAX_THREADS ) , data = lgb.Dataset( as.matrix(mtcars[, -1L]) , label = mtcars$mpg , params = list( min_data_in_bin = 1L ) ) , verbose = .LGB_VERBOSITY , nrounds = 5L ) ncols <- .Call(LGBM_BoosterGetNumFeature_R, model$.__enclos_env__$private$handle) expect_equal(ncols, ncol(mtcars) - 1L) data("iris") model <- lgb.train( params = list(objective = "multiclass", num_class = 3L) , data = lgb.Dataset( as.matrix(iris[, -5L]) , label = as.numeric(factor(iris$Species)) - 1.0 ) , verbose = .LGB_VERBOSITY , nrounds = 5L ) ncols <- .Call(LGBM_BoosterGetNumFeature_R, model$.__enclos_env__$private$handle) expect_equal(ncols, ncol(iris) - 1L) })