def check_label(self):
LOGGER.info("check label")
if self.task_type == consts.CLASSIFICATION:
self.num_classes, self.classes_ = ClassifyLabelChecker.validate_label(
self.data_bin)
if self.num_classes > 2:
self.classify_target = "multinomial"
self.tree_dim = self.num_classes
range_from_zero = True
for _class in self.classes_:
try:
if _class >= 0 and _class < self.num_classes and isinstance(
_class, int):
continue
else:
range_from_zero = False
break
except:
range_from_zero = False
self.classes_ = sorted(self.classes_)
if not range_from_zero:
class_mapping = dict(
zip(self.classes_, range(self.num_classes)))
self.y = self.y.mapValues(lambda _class: class_mapping[_class])
else:
RegressionLabelChecker.validate_label(self.data_bin)
self.set_loss(self.objective_param)
def check_label(self):
LOGGER.info("check label")
classes_ = []
num_classes, booster_dim = 1, 1
if self.task_type == consts.CLASSIFICATION:
num_classes, classes_ = ClassifyLabelChecker.validate_label(
self.data_bin)
if num_classes > 2:
booster_dim = num_classes
range_from_zero = True
for _class in classes_:
try:
if 0 <= _class < len(classes_) and isinstance(_class, int):
continue
else:
range_from_zero = False
break
except:
range_from_zero = False
classes_ = sorted(classes_)
if not range_from_zero:
class_mapping = dict(zip(classes_, range(num_classes)))
self.y = self.y.mapValues(lambda _class: class_mapping[_class])
else:
RegressionLabelChecker.validate_label(self.data_bin)
return classes_, num_classes, booster_dim
class TeskClassifyLabelChecker(unittest.TestCase):
def setUp(self):
session.init("test_label_checker")
self.small_label_set = [Instance(label=i % 5) for i in range(100)]
self.classify_inst = session.parallelize(self.small_label_set,
include_key=False,
partition=16)
self.regression_label = [
Instance(label=random.random()) for i in range(100)
]
self.regression_inst = session.parallelize(self.regression_label,
partition=16)
self.classify_checker = ClassifyLabelChecker()
self.regression_checker = RegressionLabelChecker()
def test_classify_label_checkert(self):
num_class, classes = self.classify_checker.validate_label(
self.classify_inst)
self.assertTrue(num_class == 5)
self.assertTrue(sorted(classes) == [0, 1, 2, 3, 4])
def test_regression_label_checker(self):
self.regression_checker.validate_label(self.regression_inst)
def tearDown(self):
session.stop()
def check_label(data_inst):
"""
check label. FTL only supports binary classification, and labels should be 1 or -1
"""
LOGGER.debug('checking label')
label_checker = ClassifyLabelChecker()
num_class, class_set = label_checker.validate_label(data_inst)
if num_class != 2:
raise ValueError(
'ftl only support binary classification, however {} labels are provided.'
.format(num_class))
if 1 in class_set and -1 in class_set:
return data_inst
else:
soreted_class_set = sorted(list(class_set))
new_label_mapping = {
soreted_class_set[1]: 1,
soreted_class_set[0]: -1
}
reset_label = functools.partial(FTL.reset_label,
mapping=new_label_mapping)
new_table = data_inst.mapValues(reset_label)
new_table.schema = copy.deepcopy(data_inst.schema)
return new_table
def get_data_classes(self, data_instances):
"""
get all classes in data_instances
"""
class_set = None
if self.has_label:
num_class, class_list = ClassifyLabelChecker.validate_label(data_instances)
class_set = set(class_list)
self._synchronize_classes_list(class_set)
return self.classes
def check_labels(self, data_inst, ) -> List[int]:
LOGGER.debug('checking labels')
classes_ = None
if self.task_type == consts.CLASSIFICATION:
num_classes, classes_ = ClassifyLabelChecker.validate_label(data_inst)
else:
RegressionLabelChecker.validate_label(data_inst)
return classes_
def _client_check_data(self, data_instances):
self._abnormal_detection(data_instances)
self.check_abnormal_values(data_instances)
self.init_schema(data_instances)
num_classes, classes_ = ClassifyLabelChecker.validate_label(data_instances)
aligned_label, new_label_mapping = HomoLabelEncoderClient().label_alignment(classes_)
if len(aligned_label) > 2:
raise ValueError("H**o LR support binary classification only now")
elif len(aligned_label) <= 1:
raise ValueError("Number of classes should be equal to 2")
