def _create_examples(self, lines, split):
examples = []
for _ in range(task_weighting.get_task_multiple(self, split)):
examples += self._load_glue(lines, split,
1 if split == "test" else 3,
2 if split == "test" else 4, 5, True)
return examples
def _create_examples(self, lines, split):
examples = []
for _ in range(task_weighting.get_task_multiple(self, split)):
if split == "diagnostic":
examples += self._load_glue(lines, split, 1, 2, None, True)
else:
examples += self._load_glue(lines, split, 8, 9, -1, True)
return examples
def _create_examples(self, lines, split):
examples = []
for _ in range(task_weighting.get_task_multiple(self, split)):
if "test" in split:
examples += self._load_glue(lines, split, 1, None, None, True)
else:
examples += self._load_glue(lines, split, 0, None, 1, True)
return examples
def _create_examples(self, lines, split):
examples = []
offset = 0
for _ in range(task_weighting.get_task_multiple(self, split)):
examples += self._load_glue(lines, split, 3, 4, 0, True)
if not offset:
offset = len(examples)
if self.config.double_unordered and split == "train":
examples += self._load_glue(lines, split, 3, 4, 0, True, offset, True)
return examples
def _create_examples(self, lines, split):
examples = []
for _ in range(task_weighting.get_task_multiple(self, split)):
examples += self._load_glue(lines, split, 0, None, 1, False)
return examples
