Added files needed for the text embedder's implementation and tests

2022-11-10 02:16:51 -08:00 · 2022-11-10 02:16:51 -08:00 · 1604908a59
commit 1604908a59
parent 0ac604d507
12 changed files with 811 additions and 0 deletions
--- a/mediapipe/python/BUILD
+++ b/mediapipe/python/BUILD
@ -98,6 +98,7 @@ cc_library(
        "//conditions:default": [
            "//mediapipe/tasks/cc/audio/audio_classifier:audio_classifier_graph",
            "//mediapipe/tasks/cc/text/text_classifier:text_classifier_graph",
            "//mediapipe/tasks/cc/text/text_embedder:text_embedder_graph",
        ],
    }),
 )
--- a/mediapipe/tasks/python/components/containers/BUILD
+++ b/mediapipe/tasks/python/components/containers/BUILD
@ -104,3 +104,12 @@ py_library(
        "//mediapipe/tasks/python/core:optional_dependencies",
    ],
 )
 py_library(
    name = "embedding_result",
    srcs = ["embedding_result.py"],
    deps = [
        "//mediapipe/tasks/cc/components/containers/proto:embeddings_py_pb2",
        "//mediapipe/tasks/python/core:optional_dependencies",
    ],
 )
--- a/mediapipe/tasks/python/components/containers/embedding_result.py
+++ b/mediapipe/tasks/python/components/containers/embedding_result.py
@ -0,0 +1,210 @@
 # Copyright 2022 The MediaPipe Authors. All Rights Reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 """Embeddings data class."""
 import dataclasses
 from typing import Any, Optional, List
 import numpy as np
 from mediapipe.tasks.cc.components.containers.proto import embeddings_pb2
 from mediapipe.tasks.python.core.optional_dependencies import doc_controls
 _FloatEmbeddingProto = embeddings_pb2.FloatEmbedding
 _QuantizedEmbeddingProto = embeddings_pb2.QuantizedEmbedding
 _EmbeddingProto = embeddings_pb2.Embedding
 _EmbeddingResultProto = embeddings_pb2.EmbeddingResult
@dataclasses.dataclass
 class FloatEmbedding:
  """Defines a dense floating-point embedding.
  Attributes:
    values: A NumPy array indicating the raw output of the embedding layer.
  """
  values: np.ndarray
  @doc_controls.do_not_generate_docs
  def to_pb2(self) -> _FloatEmbeddingProto:
    """Generates a FloatEmbedding protobuf object."""
    return _FloatEmbeddingProto(values=self.values)
  @classmethod
  @doc_controls.do_not_generate_docs
  def create_from_pb2(
      cls, pb2_obj: _FloatEmbeddingProto) -> 'FloatEmbedding':
    """Creates a `FloatEmbedding` object from the given protobuf object."""
    return FloatEmbedding(values=np.array(pb2_obj.value_float, dtype=float))
  def __eq__(self, other: Any) -> bool:
    """Checks if this object is equal to the given object.
    Args:
      other: The object to be compared with.
    Returns:
      True if the objects are equal.
    """
    if not isinstance(other, FloatEmbedding):
      return False
    return self.to_pb2().__eq__(other.to_pb2())
@dataclasses.dataclass
 class QuantizedEmbedding:
  """Defines a dense scalar-quantized embedding.
  Attributes:
    values: A NumPy array indicating the raw output of the embedding layer.
  """
  values: np.ndarray
  @doc_controls.do_not_generate_docs
  def to_pb2(self) -> _QuantizedEmbeddingProto:
    """Generates a QuantizedEmbedding protobuf object."""
    return _QuantizedEmbeddingProto(values=self.values)
  @classmethod
  @doc_controls.do_not_generate_docs
  def create_from_pb2(
      cls, pb2_obj: _QuantizedEmbeddingProto) -> 'QuantizedEmbedding':
    """Creates a `QuantizedEmbedding` object from the given protobuf object."""
    return QuantizedEmbedding(
        values=np.array(bytearray(pb2_obj.value_string), dtype=np.uint8))
  def __eq__(self, other: Any) -> bool:
    """Checks if this object is equal to the given object.
    Args:
      other: The object to be compared with.
    Returns:
      True if the objects are equal.
    """
    if not isinstance(other, QuantizedEmbedding):
      return False
    return self.to_pb2().__eq__(other.to_pb2())
@dataclasses.dataclass
 class Embedding:
  """Embedding result for a given embedder head.
  Attributes:
    embedding: The actual embedding, either floating-point or scalar-quantized.
    head_index: The index of the embedder head that produced this embedding.
      This is useful for multi-head models.
    head_name: The name of the embedder head, which is the corresponding tensor
      metadata name (if any). This is useful for multi-head models.
  """
  embedding: np.ndarray
  head_index: Optional[int] = None
  head_name: Optional[str] = None
  @doc_controls.do_not_generate_docs
  def to_pb2(self) -> _EmbeddingProto:
    """Generates a Embedding protobuf object."""
    if self.embedding.dtype == float:
      return _EmbeddingProto(float_embedding=self.embedding,
                             head_index=self.head_index,
                             head_name=self.head_name)
    elif self.embedding.dtype == np.uint8:
      return _EmbeddingProto(quantized_embedding=bytes(self.embedding),
                             head_index=self.head_index,
                             head_name=self.head_name)
    else:
      raise ValueError("Invalid dtype. Only float and np.uint8 are supported.")
  @classmethod
  @doc_controls.do_not_generate_docs
  def create_from_pb2(
      cls, pb2_obj: _EmbeddingProto) -> 'Embedding':
    """Creates a `Embedding` object from the given protobuf object."""
    quantized_embedding = np.array(
        bytearray(pb2_obj.quantized_embedding.values))
    float_embedding = np.array(pb2_obj.float_embedding.values, dtype=float)
    if len(quantized_embedding) == 0:
      return Embedding(embedding=float_embedding,
                       head_index=pb2_obj.head_index,
                       head_name=pb2_obj.head_name)
    else:
      return Embedding(embedding=quantized_embedding,
                       head_index=pb2_obj.head_index,
                       head_name=pb2_obj.head_name)
  def __eq__(self, other: Any) -> bool:
    """Checks if this object is equal to the given object.
    Args:
      other: The object to be compared with.
    Returns:
      True if the objects are equal.
    """
    if not isinstance(other, Embedding):
      return False
    return self.to_pb2().__eq__(other.to_pb2())
@dataclasses.dataclass
 class EmbeddingResult:
  """Embedding results for a given embedder model.
  Attributes:
    embeddings: A list of `Embedding` objects.
    timestamp_ms: The optional timestamp (in milliseconds) of the start of the
      chunk of data corresponding to these results. This is only used for
      embedding extraction on time series (e.g. audio embedding). In these use
      cases, the amount of data to process might exceed the maximum size that
      the model can process: to solve this, the input data is split into
      multiple chunks starting at different timestamps.
  """
  embeddings: List[Embedding]
  timestamp_ms: Optional[int] = None
  @doc_controls.do_not_generate_docs
  def to_pb2(self) -> _EmbeddingResultProto:
    """Generates a EmbeddingResult protobuf object."""
    return _EmbeddingResultProto(
        embeddings=[
            embedding.to_pb2() for embedding in self.embeddings
        ])
  @classmethod
  @doc_controls.do_not_generate_docs
  def create_from_pb2(
      cls, pb2_obj: _EmbeddingResultProto) -> 'EmbeddingResult':
    """Creates a `EmbeddingResult` object from the given protobuf object."""
    return EmbeddingResult(
        embeddings=[
            Embedding.create_from_pb2(embedding)
            for embedding in pb2_obj.embeddings
        ])
  def __eq__(self, other: Any) -> bool:
    """Checks if this object is equal to the given object.
    Args:
      other: The object to be compared with.
    Returns:
      True if the objects are equal.
    """
    if not isinstance(other, EmbeddingResult):
      return False
    return self.to_pb2().__eq__(other.to_pb2())
--- a/mediapipe/tasks/python/components/processors/BUILD
+++ b/mediapipe/tasks/python/components/processors/BUILD
@ -28,3 +28,12 @@ py_library(
        "//mediapipe/tasks/python/core:optional_dependencies",
    ],
 )
 py_library(
    name = "embedder_options",
    srcs = ["embedder_options.py"],
    deps = [
        "//mediapipe/tasks/cc/components/processors/proto:embedder_options_py_pb2",
        "//mediapipe/tasks/python/core:optional_dependencies",
    ],
 )
--- a/mediapipe/tasks/python/components/processors/embedder_options.py
+++ b/mediapipe/tasks/python/components/processors/embedder_options.py
@ -0,0 +1,70 @@
 # Copyright 2022 The MediaPipe Authors. All Rights Reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 """Embedder options data class."""
 import dataclasses
 from typing import Any, Optional
 from mediapipe.tasks.cc.components.processors.proto import embedder_options_pb2
 from mediapipe.tasks.python.core.optional_dependencies import doc_controls
 _EmbedderOptionsProto = embedder_options_pb2.EmbedderOptions
@dataclasses.dataclass
 class EmbedderOptions:
  """Shared options used by all embedding extraction tasks.
  Attributes:
    l2_normalize: Whether to normalize the returned feature vector with L2 norm.
      Use this option only if the model does not already contain a native
      L2_NORMALIZATION TF Lite Op. In most cases, this is already the case and
      L2 norm is thus achieved through TF Lite inference.
    quantize: Whether the returned embedding should be quantized to bytes via
      scalar quantization. Embeddings are implicitly assumed to be unit-norm and
      therefore any dimension is guaranteed to have a value in [-1.0, 1.0]. Use
      the l2_normalize option if this is not the case.
  """
  l2_normalize: Optional[bool] = None
  quantize: Optional[bool] = None
  @doc_controls.do_not_generate_docs
  def to_pb2(self) -> _EmbedderOptionsProto:
    """Generates a EmbedderOptions protobuf object."""
    return _EmbedderOptionsProto(
        l2_normalize=self.l2_normalize,
        quantize=self.quantize)
  @classmethod
  @doc_controls.do_not_generate_docs
  def create_from_pb2(cls, pb2_obj: _EmbedderOptionsProto) -> 'EmbedderOptions':
    """Creates a `EmbedderOptions` object from the given protobuf object."""
    return EmbedderOptions(
        l2_normalize=pb2_obj.l2_normalize,
        quantize=pb2_obj.quantize)
  def __eq__(self, other: Any) -> bool:
    """Checks if this object is equal to the given object.
    Args:
      other: The object to be compared with.
    Returns:
      True if the objects are equal.
    """
    if not isinstance(other, EmbedderOptions):
      return False
    return self.to_pb2().__eq__(other.to_pb2())
--- a/mediapipe/tasks/python/components/utils/BUILD
+++ b/mediapipe/tasks/python/components/utils/BUILD
@ -0,0 +1,28 @@
 # Copyright 2022 The MediaPipe Authors. All Rights Reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 # Placeholder for internal Python strict library compatibility macro.
 package(default_visibility = ["//mediapipe/tasks:internal"])
 licenses(["notice"])
 py_library(
    name = "cosine_similarity",
    srcs = ["cosine_similarity.py"],
    deps = [
        "//mediapipe/tasks/python/components/containers:embedding_result",
        "//mediapipe/tasks/python/components/processors:embedder_options",
    ],
 )
--- a/mediapipe/tasks/python/components/utils/init.py
+++ b/mediapipe/tasks/python/components/utils/init.py
@ -0,0 +1,13 @@
 # Copyright 2022 The MediaPipe Authors. All Rights Reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
--- a/mediapipe/tasks/python/components/utils/cosine_similarity.py
+++ b/mediapipe/tasks/python/components/utils/cosine_similarity.py
@ -0,0 +1,61 @@
 # Copyright 2022 The MediaPipe Authors. All Rights Reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 """Cosine similarity utilities."""
 import numpy as np
 from mediapipe.tasks.python.components.containers import embedding_result
 from mediapipe.tasks.python.components.processors import embedder_options
 _Embedding = embedding_result.Embedding
 _EmbedderOptions = embedder_options.EmbedderOptions
 def _compute_cosine_similarity(u, v):
  if len(u.embedding) <= 0:
    raise ValueError("Cannot compute cosing similarity on empty embeddings.")
  norm_u = np.linalg.norm(u.embedding)
  norm_v = np.linalg.norm(v.embedding)
  if norm_u <= 0 or norm_v <= 0:
    raise ValueError(
        "Cannot compute cosine similarity on embedding with 0 norm.")
  return np.dot(u.embedding, v.embedding.T) / (norm_u * norm_v)
 def cosine_similarity(u: _Embedding, v: _Embedding) -> float:
  """Utility function to compute cosine similarity between two embedding.
  May return an InvalidArgumentError if e.g. the feature vectors are of
  different types (quantized vs. float), have different sizes, or have an
  L2-norm of 0.
  Args:
    u: An embedding.
    v: An embedding.
  """
  if len(u.embedding) != len(v.embedding):
    raise ValueError(f"Cannot compute cosine similarity between embeddings "
                     f"of different sizes "
                     f"({len(u.embedding)} vs. {len(v.embedding)}).")
  if u.embedding.dtype == float and v.embedding.dtype == float:
    return _compute_cosine_similarity(u, v)
  if u.embedding.dtype == np.uint8 and v.embedding.dtype == np.uint8:
    return _compute_cosine_similarity(u, v)
  raise ValueError("Cannot compute cosine similarity between quantized and "
                   "float embeddings.")
--- a/mediapipe/tasks/python/test/text/BUILD
+++ b/mediapipe/tasks/python/test/text/BUILD
@ -34,3 +34,20 @@ py_test(
        "//mediapipe/tasks/python/text:text_classifier",
    ],
 )
 py_test(
    name = "text_embedder_test",
    srcs = ["text_embedder_test.py"],
    data = [
        "//mediapipe/tasks/testdata/text:mobilebert_embedding_model",
        "//mediapipe/tasks/testdata/text:regex_embedding_with_metadata",
    ],
    deps = [
        "//mediapipe/tasks/python/components/processors:embedder_options",
        "//mediapipe/tasks/python/components/utils:cosine_similarity",
        "//mediapipe/tasks/python/components/containers:embedding_result",
        "//mediapipe/tasks/python/core:base_options",
        "//mediapipe/tasks/python/test:test_utils",
        "//mediapipe/tasks/python/text:text_embedder",
    ],
 )
--- a/mediapipe/tasks/python/test/text/text_embedder_test.py
+++ b/mediapipe/tasks/python/test/text/text_embedder_test.py
@ -0,0 +1,207 @@
 # Copyright 2022 The MediaPipe Authors. All Rights Reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 """Tests for text embedder."""
 import enum
 import os
 from unittest import mock
 import numpy as np
 from absl.testing import absltest
 from absl.testing import parameterized
 from mediapipe.tasks.python.components.processors import embedder_options as embedder_options_module
 from mediapipe.tasks.python.components.containers import embedding_result as embedding_result_module
 from mediapipe.tasks.python.core import base_options as base_options_module
 from mediapipe.tasks.python.test import test_utils
 from mediapipe.tasks.python.text import text_embedder
 ImageEmbedderResult = embedding_result_module.EmbeddingResult
 _BaseOptions = base_options_module.BaseOptions
 _EmbedderOptions = embedder_options_module.EmbedderOptions
 _FloatEmbedding = embedding_result_module.FloatEmbedding
 _QuantizedEmbedding = embedding_result_module.QuantizedEmbedding
 _Embedding = embedding_result_module.Embedding
 _TextEmbedder = text_embedder.TextEmbedder
 _TextEmbedderOptions = text_embedder.TextEmbedderOptions
 _BERT_MODEL_FILE = 'mobilebert_embedding_with_metadata.tflite'
 _REGEX_MODEL_FILE = 'regex_one_embedding_with_metadata.tflite'
 _TEST_DATA_DIR = 'mediapipe/tasks/testdata/text'
 # Tolerance for embedding vector coordinate values.
 _EPSILON = 1e-4
 # Tolerance for cosine similarity evaluation.
 _SIMILARITY_TOLERANCE = 1e-6
 class ModelFileType(enum.Enum):
  FILE_CONTENT = 1
  FILE_NAME = 2
 class ImageEmbedderTest(parameterized.TestCase):
  def setUp(self):
    super().setUp()
    self.model_path = test_utils.get_test_data_path(
        os.path.join(_TEST_DATA_DIR, _BERT_MODEL_FILE))
  def test_create_from_file_succeeds_with_valid_model_path(self):
    # Creates with default option and valid model file successfully.
    with _TextEmbedder.create_from_model_path(self.model_path) as embedder:
      self.assertIsInstance(embedder, _TextEmbedder)
  def test_create_from_options_succeeds_with_valid_model_path(self):
    # Creates with options containing model file successfully.
    base_options = _BaseOptions(model_asset_path=self.model_path)
    options = _TextEmbedderOptions(base_options=base_options)
    with _TextEmbedder.create_from_options(options) as embedder:
      self.assertIsInstance(embedder, _TextEmbedder)
  def test_create_from_options_fails_with_invalid_model_path(self):
    with self.assertRaisesRegex(
        RuntimeError, 'Unable to open file at /path/to/invalid/model.tflite'):
      base_options = _BaseOptions(
        model_asset_path='/path/to/invalid/model.tflite')
      options = _TextEmbedderOptions(base_options=base_options)
      _TextEmbedder.create_from_options(options)
  def test_create_from_options_succeeds_with_valid_model_content(self):
    # Creates with options containing model content successfully.
    with open(self.model_path, 'rb') as f:
      base_options = _BaseOptions(model_asset_buffer=f.read())
      options = _TextEmbedderOptions(base_options=base_options)
      embedder = _TextEmbedder.create_from_options(options)
      self.assertIsInstance(embedder, _TextEmbedder)
  def _check_embedding_value(self, result, expected_first_value):
    # Check embedding first value.
    self.assertAlmostEqual(result.embeddings[0].embedding[0],
                           expected_first_value, delta=_EPSILON)
  def _check_embedding_size(self, result, quantize, expected_embedding_size):
    # Check embedding size.
    self.assertLen(result.embeddings, 1)
    embedding_result = result.embeddings[0]
    self.assertLen(embedding_result.embedding, expected_embedding_size)
    if quantize:
      self.assertEqual(embedding_result.embedding.dtype, np.uint8)
    else:
      self.assertEqual(embedding_result.embedding.dtype, float)
  def _check_cosine_similarity(self, result0, result1, expected_similarity):
    # Checks cosine similarity.
    similarity = _TextEmbedder.cosine_similarity(
        result0.embeddings[0], result1.embeddings[0])
    self.assertAlmostEqual(similarity, expected_similarity,
                           delta=_SIMILARITY_TOLERANCE)
  @parameterized.parameters(
      (False, False, _BERT_MODEL_FILE, ModelFileType.FILE_NAME,
       0.969514, 512, (19.9016, 22.626251)),
      (True, False, _BERT_MODEL_FILE, ModelFileType.FILE_NAME,
       0.969514, 512, (0.0585837, 0.0723035)),
      (False, False, _REGEX_MODEL_FILE, ModelFileType.FILE_NAME,
       0.999937, 16, (0.0309356, 0.0312863)),
      (True, False, _REGEX_MODEL_FILE, ModelFileType.FILE_CONTENT,
       0.999937, 16, (0.549632, 0.552879)),
  )
  def test_embed(self, l2_normalize, quantize, model_name, model_file_type,
                 expected_similarity, expected_size, expected_first_values):
    # Creates embedder.
    model_path = test_utils.get_test_data_path(
        os.path.join(_TEST_DATA_DIR, model_name))
    if model_file_type is ModelFileType.FILE_NAME:
      base_options = _BaseOptions(model_asset_path=model_path)
    elif model_file_type is ModelFileType.FILE_CONTENT:
      with open(model_path, 'rb') as f:
        model_content = f.read()
      base_options = _BaseOptions(model_asset_buffer=model_content)
    else:
      # Should never happen
      raise ValueError('model_file_type is invalid.')
    embedder_options = _EmbedderOptions(l2_normalize=l2_normalize,
                                        quantize=quantize)
    options = _TextEmbedderOptions(
        base_options=base_options, embedder_options=embedder_options)
    embedder = _TextEmbedder.create_from_options(options)
    # Extracts both embeddings.
    positive_text0 = "it's a charming and often affecting journey"
    positive_text1 = "what a great and fantastic trip"
    result0 = embedder.embed(positive_text0)
    result1 = embedder.embed(positive_text1)
    # Checks embeddings and cosine similarity.
    expected_result0_value, expected_result1_value = expected_first_values
    self._check_embedding_size(result0, quantize, expected_size)
    self._check_embedding_size(result1, quantize, expected_size)
    self._check_embedding_value(result0, expected_result0_value)
    self._check_embedding_value(result1, expected_result1_value)
    self._check_cosine_similarity(result0, result1, expected_similarity)
    # Closes the embedder explicitly when the embedder is not used in
    # a context.
    embedder.close()
  @parameterized.parameters(
      (False, False, _BERT_MODEL_FILE, ModelFileType.FILE_NAME,
       0.969514, 512, (19.9016, 22.626251)),
      (True, False, _BERT_MODEL_FILE, ModelFileType.FILE_NAME,
       0.969514, 512, (0.0585837, 0.0723035)),
      (False, False, _REGEX_MODEL_FILE, ModelFileType.FILE_NAME,
       0.999937, 16, (0.0309356, 0.0312863)),
      (True, False, _REGEX_MODEL_FILE, ModelFileType.FILE_CONTENT,
       0.999937, 16, (0.549632, 0.552879)),
  )
  def test_embed_in_context(self, l2_normalize, quantize, model_name,
                            model_file_type, expected_similarity,
                            expected_size, expected_first_values):
    # Creates embedder.
    model_path = test_utils.get_test_data_path(
      os.path.join(_TEST_DATA_DIR, model_name))
    if model_file_type is ModelFileType.FILE_NAME:
      base_options = _BaseOptions(model_asset_path=model_path)
    elif model_file_type is ModelFileType.FILE_CONTENT:
      with open(model_path, 'rb') as f:
        model_content = f.read()
      base_options = _BaseOptions(model_asset_buffer=model_content)
    else:
      # Should never happen
      raise ValueError('model_file_type is invalid.')
    embedder_options = _EmbedderOptions(l2_normalize=l2_normalize,
                                        quantize=quantize)
    options = _TextEmbedderOptions(
      base_options=base_options, embedder_options=embedder_options)
    with _TextEmbedder.create_from_options(options) as embedder:
      # Extracts both embeddings.
      positive_text0 = "it's a charming and often affecting journey"
      positive_text1 = "what a great and fantastic trip"
      result0 = embedder.embed(positive_text0)
      result1 = embedder.embed(positive_text1)
      # Checks embeddings and cosine similarity.
      expected_result0_value, expected_result1_value = expected_first_values
      self._check_embedding_size(result0, quantize, expected_size)
      self._check_embedding_size(result1, quantize, expected_size)
      self._check_embedding_value(result0, expected_result0_value)
      self._check_embedding_value(result1, expected_result1_value)
      self._check_cosine_similarity(result0, result1, expected_similarity)
 if __name__ == '__main__':
  absltest.main()
--- a/mediapipe/tasks/python/text/BUILD
+++ b/mediapipe/tasks/python/text/BUILD
@ -36,3 +36,23 @@ py_library(
        "//mediapipe/tasks/python/text/core:base_text_task_api",
    ],
 )
 py_library(
    name = "text_embedder",
    srcs = [
        "text_embedder.py",
    ],
    deps = [
        "//mediapipe/python:_framework_bindings",
        "//mediapipe/python:packet_creator",
        "//mediapipe/python:packet_getter",
        "//mediapipe/tasks/cc/text/text_embedder/proto:text_embedder_graph_options_py_pb2",
        "//mediapipe/tasks/cc/components/containers/proto:embeddings_py_pb2",
        "//mediapipe/tasks/python/components/containers:embedding_result",
        "//mediapipe/tasks/python/components/processors:embedder_options",
        "//mediapipe/tasks/python/core:base_options",
        "//mediapipe/tasks/python/core:optional_dependencies",
        "//mediapipe/tasks/python/core:task_info",
        "//mediapipe/tasks/python/text/core:base_text_task_api",
    ],
 )
--- a/mediapipe/tasks/python/text/text_embedder.py
+++ b/mediapipe/tasks/python/text/text_embedder.py
@ -0,0 +1,166 @@
 # Copyright 2022 The MediaPipe Authors. All Rights Reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 """MediaPipe text embedder task."""
 import dataclasses
 from typing import Callable, Mapping, Optional
 from mediapipe.python import packet_creator
 from mediapipe.python import packet_getter
 from mediapipe.python._framework_bindings import packet as packet_module
 from mediapipe.tasks.cc.text.text_embedder.proto import text_embedder_graph_options_pb2
 from mediapipe.tasks.cc.components.containers.proto import embeddings_pb2
 from mediapipe.tasks.python.components.processors import embedder_options
 from mediapipe.tasks.python.components.utils import cosine_similarity
 from mediapipe.tasks.python.components.containers import embedding_result as embedding_result_module
 from mediapipe.tasks.python.core import base_options as base_options_module
 from mediapipe.tasks.python.core import task_info as task_info_module
 from mediapipe.tasks.python.core.optional_dependencies import doc_controls
 from mediapipe.tasks.python.text.core import base_text_task_api
 TextEmbedderResult = embedding_result_module.EmbeddingResult
 _BaseOptions = base_options_module.BaseOptions
 _TextEmbedderGraphOptionsProto = text_embedder_graph_options_pb2.TextEmbedderGraphOptions
 _EmbedderOptions = embedder_options.EmbedderOptions
 _TaskInfo = task_info_module.TaskInfo
 _EMBEDDINGS_OUT_STREAM_NAME = 'embeddings_out'
 _EMBEDDINGS_TAG = 'EMBEDDINGS'
 _TEXT_IN_STREAM_NAME = 'text_in'
 _TEXT_TAG = 'TEXT'
 _TASK_GRAPH_NAME = 'mediapipe.tasks.text.text_embedder.TextEmbedderGraph'
 _MICRO_SECONDS_PER_MILLISECOND = 1000
@dataclasses.dataclass
 class TextEmbedderOptions:
  """Options for the text embedder task.
  Attributes:
    base_options: Base options for the text embedder task.
    embedder_options: Options for the text embedder task.
  """
  base_options: _BaseOptions
  embedder_options: _EmbedderOptions = _EmbedderOptions()
  @doc_controls.do_not_generate_docs
  def to_pb2(self) -> _TextEmbedderGraphOptionsProto:
    """Generates an TextEmbedderOptions protobuf object."""
    base_options_proto = self.base_options.to_pb2()
    embedder_options_proto = self.embedder_options.to_pb2()
    return _TextEmbedderGraphOptionsProto(
        base_options=base_options_proto,
        embedder_options=embedder_options_proto
    )
 class TextEmbedder(base_text_task_api.BaseTextTaskApi):
  """Class that performs embedding extraction on text."""
  @classmethod
  def create_from_model_path(cls, model_path: str) -> 'ImageEmbedder':
    """Creates an `TextEmbedder` object from a TensorFlow Lite model and the
      default `TextEmbedderOptions`.
    Args:
      model_path: Path to the model.
    Returns:
      `TextEmbedder` object that's created from the model file and the default
      `TextEmbedderOptions`.
    Raises:
      ValueError: If failed to create `TextEmbedder` object from the provided
        file such as invalid file path.
      RuntimeError: If other types of error occurred.
    """
    base_options = _BaseOptions(model_asset_path=model_path)
    options = TextEmbedderOptions(base_options=base_options)
    return cls.create_from_options(options)
  @classmethod
  def create_from_options(cls,
                          options: TextEmbedderOptions) -> 'TextEmbedder':
    """Creates the `TextEmbedder` object from text embedder options.
    Args:
      options: Options for the text embedder task.
    Returns:
      `TextEmbedder` object that's created from `options`.
    Raises:
      ValueError: If failed to create `TextEmbedder` object from
        `TextEmbedderOptions` such as missing the model.
      RuntimeError: If other types of error occurred.
    """
    task_info = _TaskInfo(
      task_graph=_TASK_GRAPH_NAME,
      input_streams=[':'.join([_TEXT_TAG, _TEXT_IN_STREAM_NAME])],
      output_streams=[
        ':'.join([
          _EMBEDDINGS_TAG,
          _EMBEDDINGS_OUT_STREAM_NAME
        ])
      ],
      task_options=options)
    return cls(task_info.generate_graph_config())
  def embed(
      self,
      text: str,
  ) -> TextEmbedderResult:
    """Performs text embedding extraction on the provided text.
    Args:
      text: The input text.
    Returns:
      An embedding result object that contains a list of embeddings.
    Raises:
      ValueError: If any of the input arguments is invalid.
      RuntimeError: If text embedder failed to run.
    """
    output_packets = self._runner.process(
        {_TEXT_IN_STREAM_NAME: packet_creator.create_string(text)})
    embedding_result_proto = embeddings_pb2.EmbeddingResult()
    embedding_result_proto.CopyFrom(
      packet_getter.get_proto(output_packets[_EMBEDDINGS_OUT_STREAM_NAME]))
    return TextEmbedderResult.create_from_pb2(embedding_result_proto)
  @staticmethod
  def cosine_similarity(u: embedding_result_module.Embedding,
                        v: embedding_result_module.Embedding) -> float:
    """Utility function to compute cosine similarity [1] between two embedding
    entries. May return an InvalidArgumentError if e.g. the feature vectors are
    of different types (quantized vs. float), have different sizes, or have a
    an L2-norm of 0.
    Args:
      u: An embedding entry.
      v: An embedding entry.
    Returns:
      The cosine similarity for the two embeddings.
    Raises:
      ValueError: May return an error if e.g. the feature vectors are of
        different types (quantized vs. float), have different sizes, or have
        an L2-norm of 0
    """
    return cosine_similarity.cosine_similarity(u, v)