When doing an n-fold cross validation on a LightGBM regressor with some saved indices, the error initially decreases but then suddenly shoots up. This only occurs for the very first fold, and only when I am using what I call the train_dev_kfolds, not when I use the kfolds. Here is the output: Image of error

I have checked the kfolds against the dataframe's indices, though everything seems to be in order: the indices are mutually exclusive and collectively exhaustive (in terms of the dataframe). Regenerating the kfolds still produces the same problem. Most strangely it is fine for other folds, and other splits on the subset of the dataframe (i.e. kfolds). Using LGBRegressor (the sklearn-style API) does not cause this issue, e.g. with model = LGBMRegressor(n_estimators=500 ).fit(X_train, y_train,eval_set=[(X_dev, y_dev)],eval_metric='rmse',early_stopping_rounds=200,verbose=True) the output is fine.

What might be causing this rather mysterious error? train_idx.union(dev_idx) from lightgbm import LGBMRegressor

train_idx = folds[0][0]
dev_idx = folds[0][1]

inc_cols, key_col = pp.get_cols(settings,'model1',df)
X_train = df.loc[train_idx,inc_cols]
X_dev = df.loc[dev_idx,inc_cols]
y_train = df.loc[train_idx,key_col]
y_dev = df.loc[dev_idx,key_col]
lgb_train = lgb.Dataset(X_train,
lgb_test = lgb.Dataset(X_dev,

model = lgb.train(
                valid_sets=[lgb_train, lgb_test],
                valid_names=['train', 'test'],
                early_stopping_rounds= 200,
preds = model.predict(X_dev)
display(mean_squared_error(y_dev, preds)**.5)

This is the function used to save the indices:

def set_kf(root_train_df, root_test_df, settings):
    n_folds = settings['N_FOLDS']
    train_idx, dev_idx, test_idx = get_train_dev_test_idx(root_train_df, root_test_df, settings)
    kf = KFold(n_splits=n_folds,shuffle=True,random_state=42)
    kfolds, train_dev_kfolds = [],[] #get n_splits may be better for fine control

    #split on train only
    for kf_train_idx, kf_test_idx in kf.split(train_idx):
        kfolds.append((train_idx[kf_train_idx], train_idx[kf_test_idx]))

    #split on union of train and dev
    if dev_idx is not None:
        train_dev_idx = train_idx.union(dev_idx)
        for kf_train_idx, kf_test_idx in kf.split(train_dev_idx):
            train_dev_kfolds.append((train_dev_idx[kf_train_idx], train_dev_idx[kf_test_idx]))
        train_dev_kfolds = None

    data = {
        'train_idx': train_idx
        ,'dev_idx': dev_idx
        ,'test_idx': test_idx
        ,'kfolds': kfolds
        ,'train_dev_kfolds': train_dev_kfolds
        ,'kf': kf

    with open(settings['cvs'], 'wb') as f:
        #pickle the 'data' dictionary using the highest protocol available.
        pickle.dump(data, f, pickle.HIGHEST_PROTOCOL)        

    del kfolds, train_dev_kfolds, data

Here are the parameters used for the regression:

params ={
        'task': 'train',
        'boosting': 'goss',
        'objective': 'regression',
        'metric': 'rmse',
        'learning_rate': 0.01,
        'subsample': 0.9855232997390695,
        'max_depth': 7,
        'top_rate': 0.9064148448434349,
        'num_leaves': 63,
        'min_child_weight': 41.9612869171337,
        'other_rate': 0.0721768246018207,
        'reg_alpha': 9.677537745007898,
        'colsample_bytree': 0.5665320670155495,
        'min_split_gain': 9.820197773625843,
        'reg_lambda': 8.2532317400459,
        'min_data_in_leaf': 21,
        'verbose': 10,

EDIT: Creating the splits in the same script seems to be fine and does not produce this problem - is this then a problem with pickle?

EDIT 2: Even more strangely, when I load the train_idx and dev_idx from the pickle object and perform the splits on their union (with train_dev_idx = train_idx.union(dev_idx)), the same problem arises. However, if I get the union index from an existing dataframetrain_dev_idx2 = train_dev_df.index, then it's fine. Moreover, when I compare the two with train_dev_idx.equals(train_dev_idx2) then the result is False, but when I take the difference it is an empty index.

EDIT 3: I've narrowed down the problem to train_idx.union(dev_idx). When I replace this line with train_dev_idx=root_train_df.index then everything seems to be OK. However, can anyone help me understand why this might be the case? All the elements in the indices appear to be equal. Furthermore, why might this make the error shoot up for LightGBM?

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