tasks.py

# /home/perk/mymodel/categorisation-mt5x/tasks.py

import functools
import seqio
import tensorflow_datasets as tfds
from t5.evaluation import metrics
import my_metrics
from t5.data import preprocessors
import t5
import tensorflow.compat.v1 as tf

tsv_path = {
        "train": "gs://eu-jav-t5x/corpus/labeled/datasetA_train_3categories.tsv",
        "validation": "gs://eu-jav-t5x/corpus/labeled/datasetA_dev_3categories.tsv",
        "test": "gs://eu-jav-t5x/corpus/labeled/datasetA_test_3categories.tsv"
}

vocabulary = seqio.SentencePieceVocabulary(
                'gs://t5-data/vocabs/mc4.250000.100extra/sentencepiece.model', extra_ids=0)

DEFAULT_OUTPUT_FEATURES = {
    "inputs":
        seqio.Feature(
            vocabulary=vocabulary, add_eos=True),
    "targets":
        seqio.Feature(
            vocabulary=vocabulary, add_eos=True)
}

def categorise_preprocessor(ds):
  def normalize_text(text):
    """Lowercase and remove quotes from a TensorFlow string."""
    text = tf.strings.regex_replace(text,"'(.*)'", r"\1")
    return text

  def to_inputs_and_targets(ex):
    """Map {"source": ..., "source": ...}->{"target": ..., "target": ...}."""
    return {
        "inputs":
             tf.strings.join(
                 [normalize_text(ex["source"])]),
        "targets": 
	    tf.strings.join(
                 [normalize_text(ex["target"])]),
    }

  return ds.map(to_inputs_and_targets, 
                num_parallel_calls=tf.data.experimental.AUTOTUNE)


def categorise_fulltext_preprocessor(ds):
  def normalize_text(text):
    """Lowercase and remove quotes from a TensorFlow string."""
    text = tf.strings.regex_replace(text,"'(.*)'", r"\1")
    return text

  def fulltext(t):
    if t=="0":
        t="il testo è favorevole alla vaccinazione"
    elif t=="1":
        t="il testo è neutro rispetto alla vaccinazione"
    elif t=="2":
        t="is testo è sfavorevole alla vaccinazione"
    return t

  def to_inputs_and_targets(ex):
    """Map {"source": ..., "source": ...}->{"target": ..., "target": ...}."""
    return {
        "inputs":
             tf.strings.join(
                 [normalize_text(ex["source"])]),
        "targets": 
	    tf.strings.join(
                 [fulltext(normalize_text(ex["target"]))]),
    }
  return ds.map(to_inputs_and_targets, 
                num_parallel_calls=tf.data.experimental.AUTOTUNE)


def categorise_fulltext_word_preprocessor(ds):
  def normalize_text(text):
    """Lowercase and remove quotes from a TensorFlow string."""
    text = tf.strings.regex_replace(text,"'(.*)'", r"\1")
    return text

  def fulltext(t):
    if t=="0":
        t="promozionale"
    elif t=="1":
        t="neutro"
    elif t=="2":
        t="scoraggiante"
    return t

  def to_inputs_and_targets(ex):
    """Map {"source": ..., "source": ...}->{"target": ..., "target": ...}."""
    return {
        "inputs":
             tf.strings.join(
                 [normalize_text(ex["source"])]),
        "targets": 
	    tf.strings.join(
                 [fulltext(normalize_text(ex["target"]))]),
    }
  return ds.map(to_inputs_and_targets, 
                num_parallel_calls=tf.data.experimental.AUTOTUNE)



def categorise_binary_preprocessor(ds):
  def normalize_text(text):
    """Lowercase and remove quotes from a TensorFlow string."""
    text = tf.strings.regex_replace(text,"'(.*)'", r"\1")
    return text

  def fulltext(t):
    if t=="0":
        t="0"
    elif t=="1":
        t="0"
    elif t=="2":
        t="1"
    return t

  def to_inputs_and_targets(ex):
    """Map {"source": ..., "source": ...}->{"target": ..., "target": ...}."""
    return {
        "inputs":
             tf.strings.join(
                 [normalize_text(ex["source"])]),
        "targets": 
	    tf.strings.join(
                 [fulltext(normalize_text(ex["target"]))]),
    }
  return ds.map(to_inputs_and_targets, 
                num_parallel_calls=tf.data.experimental.AUTOTUNE)





seqio.TaskRegistry.add(
    "classify_tweets",
    source=seqio.TextLineDataSource(
        split_to_filepattern=tsv_path,
        #num_input_examples=num_nq_examples
        ),
    preprocessors=[
      functools.partial(
          t5.data.preprocessors.parse_tsv,
          field_names=["annotator1","annotator2","annotator3","target","source","id"]),
      categorise_preprocessor,
      seqio.preprocessors.tokenize_and_append_eos,
    ],
    metric_fns=[metrics.accuracy,my_metrics.f1_macro],
    output_features=DEFAULT_OUTPUT_FEATURES,
)

seqio.TaskRegistry.add(
    "classify_tweets_fulltext",
    source=seqio.TextLineDataSource(
        split_to_filepattern=tsv_path,
        #num_input_examples=num_nq_examples
        ),
    preprocessors=[
      functools.partial(
          t5.data.preprocessors.parse_tsv,
          field_names=["annotator1","annotator2","annotator3","target","source","id"]),
      categorise_fulltext_preprocessor,
      seqio.preprocessors.tokenize_and_append_eos,
    ],
    metric_fns=[metrics.accuracy,my_metrics.f1_macro],
    output_features=DEFAULT_OUTPUT_FEATURES,
)

seqio.TaskRegistry.add(
    "classify_tweets_binary",
    source=seqio.TextLineDataSource(
        split_to_filepattern=tsv_path,
        #num_input_examples=num_nq_examples
        ),
    preprocessors=[
      functools.partial(
          t5.data.preprocessors.parse_tsv,
          field_names=["annotator1","annotator2","annotator3","target","source","id"]),
      categorise_binary_preprocessor,
      seqio.preprocessors.tokenize_and_append_eos,
    ],
    metric_fns=[metrics.accuracy,my_metrics.f1_macro],
    output_features=DEFAULT_OUTPUT_FEATURES,
)

seqio.TaskRegistry.add(
    "classify_tweets_fulltext_word",
    source=seqio.TextLineDataSource(
        split_to_filepattern=tsv_path,
        #num_input_examples=num_nq_examples
        ),
    preprocessors=[
      functools.partial(
          t5.data.preprocessors.parse_tsv,
          field_names=["annotator1","annotator2","annotator3","target","source","id"]),
      categorise_fulltext_word_preprocessor,
      seqio.preprocessors.tokenize_and_append_eos,
    ],
    metric_fns=[metrics.accuracy,my_metrics.f1_macro],
    output_features=DEFAULT_OUTPUT_FEATURES,
)