Added image classification implementation files and associated tests

This commit is contained in:
kinaryml 2022-09-08 06:23:03 -07:00
parent 4dc4b19ddb
commit cb52432159
6 changed files with 764 additions and 1 deletions

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@ -47,3 +47,13 @@ py_library(
"//mediapipe/tasks/python/core:optional_dependencies", "//mediapipe/tasks/python/core:optional_dependencies",
], ],
) )
py_library(
name = "classifications",
srcs = ["classifications.py"],
deps = [
":category",
"//mediapipe/tasks/cc/components/containers:classifications_py_pb2",
"//mediapipe/tasks/python/core:optional_dependencies",
],
)

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@ -0,0 +1,169 @@
# Copyright 2022 The TensorFlow 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.
"""Classifications data class."""
import dataclasses
from typing import Any, List, Optional
from mediapipe.tasks.cc.components.containers import classifications_pb2
from mediapipe.tasks.python.components.containers import category as category_module
from mediapipe.tasks.python.core.optional_dependencies import doc_controls
_ClassificationEntryProto = classifications_pb2.ClassificationEntry
_ClassificationsProto = classifications_pb2.Classifications
_ClassificationResultProto = classifications_pb2.ClassificationResult
@dataclasses.dataclass
class ClassificationEntry:
"""List of predicted classes (aka labels) for a given classifier head.
Attributes:
categories: The array of predicted categories, usually sorted by descending
scores (e.g. from high to low probability).
timestamp_ms: The optional timestamp (in milliseconds) associated to the
classification entry. This is useful for time series use cases, e.g.,
audio classification.
"""
categories: List[category_module.Category]
timestamp_ms: Optional[int] = None
@doc_controls.do_not_generate_docs
def to_pb2(self) -> _ClassificationEntryProto:
"""Generates a ClassificationEntry protobuf object."""
return _ClassificationEntryProto(
categories=[category.to_pb2() for category in self.categories],
timestamp_ms=self.timestamp_ms)
@classmethod
@doc_controls.do_not_generate_docs
def create_from_pb2(
cls, pb2_obj: _ClassificationEntryProto) -> 'ClassificationEntry':
"""Creates a `ClassificationEntry` object from the given protobuf object."""
return ClassificationEntry(
categories=[
category_module.Category.create_from_pb2(category)
for category in pb2_obj.categories
],
timestamp_ms=pb2_obj.timestamp_ms)
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, ClassificationEntry):
return False
return self.to_pb2().__eq__(other.to_pb2())
@dataclasses.dataclass
class Classifications:
"""Represents the classifications for a given classifier head.
Attributes:
entries: A list of `ClassificationEntry` objects.
head_index: The index of the classifier head these categories refer to.
This is useful for multi-head models.
head_name: The name of the classifier head, which is the corresponding
tensor metadata name.
"""
entries: List[ClassificationEntry]
head_index: int
head_name: str
@doc_controls.do_not_generate_docs
def to_pb2(self) -> _ClassificationsProto:
"""Generates a Classifications protobuf object."""
return _ClassificationsProto(
entries=[entry.to_pb2() for entry in self.entries],
head_index=self.head_index,
head_name=self.head_name)
@classmethod
@doc_controls.do_not_generate_docs
def create_from_pb2(cls, pb2_obj: _ClassificationsProto) -> 'Classifications':
"""Creates a `Classifications` object from the given protobuf object."""
return Classifications(
entries=[
ClassificationEntry.create_from_pb2(entry)
for entry in pb2_obj.entries
],
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, Classifications):
return False
return self.to_pb2().__eq__(other.to_pb2())
@dataclasses.dataclass
class ClassificationResult:
"""Contains one set of results per classifier head.
Attributes:
classifications: A list of `Classifications` objects.
"""
classifications: List[Classifications]
@doc_controls.do_not_generate_docs
def to_pb2(self) -> _ClassificationResultProto:
"""Generates a ClassificationResult protobuf object."""
return _ClassificationResultProto(
classifications=[
classification.to_pb2() for classification in self.classifications
])
@classmethod
@doc_controls.do_not_generate_docs
def create_from_pb2(
cls, pb2_obj: _ClassificationResultProto) -> 'ClassificationResult':
"""Creates a `ClassificationResult` object from the given protobuf object."""
return ClassificationResult(
classifications=[
Classifications.create_from_pb2(classification)
for classification in pb2_obj.classifications
])
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, ClassificationResult):
return False
return self.to_pb2().__eq__(other.to_pb2())

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@ -18,4 +18,40 @@ package(default_visibility = ["//mediapipe/tasks:internal"])
licenses(["notice"]) licenses(["notice"])
# TODO: This test fails in OSS py_test(
name = "object_detector_test",
srcs = ["object_detector_test.py"],
data = [
"//mediapipe/tasks/testdata/vision:test_images",
"//mediapipe/tasks/testdata/vision:test_models",
],
deps = [
# build rule placeholder: numpy dep,
"//mediapipe/tasks/python/components/containers:bounding_box",
"//mediapipe/tasks/python/components/containers:category",
"//mediapipe/tasks/python/components/containers:detections",
"//mediapipe/tasks/python/core:base_options",
"//mediapipe/tasks/python/test:test_util",
"//mediapipe/tasks/python/vision:object_detector",
"//mediapipe/tasks/python/vision/core:vision_task_running_mode",
"@absl_py//absl/testing:parameterized",
],
)
py_test(
name = "image_classification_test",
srcs = ["image_classification_test.py"],
data = [
"//mediapipe/tasks/testdata/vision:test_images",
"//mediapipe/tasks/testdata/vision:test_models",
],
deps = [
"//mediapipe/tasks/python/components/containers:category",
"//mediapipe/tasks/python/components/containers:classifications",
"//mediapipe/tasks/python/core:base_options",
"//mediapipe/tasks/python/test:test_util",
"//mediapipe/tasks/python/vision:image_classification",
"//mediapipe/tasks/python/vision/core:vision_task_running_mode",
"@absl_py//absl/testing:parameterized",
],
)

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@ -0,0 +1,301 @@
# 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 image classifier."""
import enum
from absl.testing import absltest
from absl.testing import parameterized
from mediapipe.python._framework_bindings import image as image_module
from mediapipe.tasks.python.components.containers import category as category_module
from mediapipe.tasks.python.components.containers import classifications as classifications_module
from mediapipe.tasks.python.core import base_options as base_options_module
from mediapipe.tasks.python.test import test_util
from mediapipe.tasks.python.vision import image_classification
from mediapipe.tasks.python.vision.core import vision_task_running_mode as running_mode_module
_BaseOptions = base_options_module.BaseOptions
_Category = category_module.Category
_ClassificationEntry = classifications_module.ClassificationEntry
_Classifications = classifications_module.Classifications
_ClassificationResult = classifications_module.ClassificationResult
_Image = image_module.Image
_ImageClassifier = image_classification.ImageClassifier
_ImageClassifierOptions = image_classification.ImageClassifierOptions
_RUNNING_MODE = running_mode_module.VisionTaskRunningMode
_MODEL_FILE = 'mobilenet_v2_1.0_224.tflite'
_IMAGE_FILE = 'burger.jpg'
_EXPECTED_CLASSIFICATION_RESULT = _ClassificationResult(
classifications=[
_Classifications(
entries=[
_ClassificationEntry(
categories=[
_Category(
index=934,
score=0.7952049970626831,
display_name='',
category_name='cheeseburger'),
_Category(
index=932,
score=0.02732999622821808,
display_name='',
category_name='bagel'),
_Category(
index=925,
score=0.01933487318456173,
display_name='',
category_name='guacamole'),
_Category(
index=963,
score=0.006279350258409977,
display_name='',
category_name='meat loaf')
],
timestamp_ms=0
)
],
head_index=0,
head_name='probability')
])
_ALLOW_LIST = ['cheeseburger', 'guacamole']
_DENY_LIST = ['cheeseburger']
_SCORE_THRESHOLD = 0.5
_MAX_RESULTS = 3
class ModelFileType(enum.Enum):
FILE_CONTENT = 1
FILE_NAME = 2
class ImageClassifierTest(parameterized.TestCase):
def setUp(self):
super().setUp()
self.test_image = test_util.read_test_image(
test_util.get_test_data_path(_IMAGE_FILE))
self.model_path = test_util.get_test_data_path(_MODEL_FILE)
def test_create_from_file_succeeds_with_valid_model_path(self):
# Creates with default option and valid model file successfully.
with _ImageClassifier.create_from_model_path(self.model_path) as classifier:
self.assertIsInstance(classifier, _ImageClassifier)
def test_create_from_options_succeeds_with_valid_model_path(self):
# Creates with options containing model file successfully.
base_options = _BaseOptions(file_name=self.model_path)
options = _ImageClassifierOptions(base_options=base_options)
with _ImageClassifier.create_from_options(options) as classifier:
self.assertIsInstance(classifier, _ImageClassifier)
def test_create_from_options_fails_with_invalid_model_path(self):
# Invalid empty model path.
with self.assertRaisesRegex(
ValueError,
r"ExternalFile must specify at least one of 'file_content', "
r"'file_name' or 'file_descriptor_meta'."):
base_options = _BaseOptions(file_name='')
options = _ImageClassifierOptions(base_options=base_options)
_ImageClassifier.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(file_content=f.read())
options = _ImageClassifierOptions(base_options=base_options)
classifier = _ImageClassifier.create_from_options(options)
self.assertIsInstance(classifier, _ImageClassifier)
@parameterized.parameters(
(ModelFileType.FILE_NAME, 4, _EXPECTED_CLASSIFICATION_RESULT),
(ModelFileType.FILE_CONTENT, 4, _EXPECTED_CLASSIFICATION_RESULT))
def test_classify(self, model_file_type, max_results,
expected_classification_result):
# Creates classifier.
if model_file_type is ModelFileType.FILE_NAME:
base_options = _BaseOptions(file_name=self.model_path)
elif model_file_type is ModelFileType.FILE_CONTENT:
with open(self.model_path, 'rb') as f:
model_content = f.read()
base_options = _BaseOptions(file_content=model_content)
else:
# Should never happen
raise ValueError('model_file_type is invalid.')
options = _ImageClassifierOptions(
base_options=base_options, max_results=max_results)
classifier = _ImageClassifier.create_from_options(options)
# Performs image classification on the input.
image_result = classifier.classify(self.test_image)
# Comparing results.
self.assertEqual(image_result, expected_classification_result)
# Closes the classifier explicitly when the classifier is not used in
# a context.
classifier.close()
@parameterized.parameters(
(ModelFileType.FILE_NAME, 4, _EXPECTED_CLASSIFICATION_RESULT),
(ModelFileType.FILE_CONTENT, 4, _EXPECTED_CLASSIFICATION_RESULT))
def test_classify_in_context(self, model_file_type, max_results,
expected_classification_result):
if model_file_type is ModelFileType.FILE_NAME:
base_options = _BaseOptions(file_name=self.model_path)
elif model_file_type is ModelFileType.FILE_CONTENT:
with open(self.model_path, 'rb') as f:
model_content = f.read()
base_options = _BaseOptions(file_content=model_content)
else:
# Should never happen
raise ValueError('model_file_type is invalid.')
options = _ImageClassifierOptions(
base_options=base_options, max_results=max_results)
with _ImageClassifier.create_from_options(options) as classifier:
# Performs object detection on the input.
image_result = classifier.classify(self.test_image)
# Comparing results.
self.assertEqual(image_result, expected_classification_result)
def test_score_threshold_option(self):
options = _ImageClassifierOptions(
base_options=_BaseOptions(file_name=self.model_path),
score_threshold=_SCORE_THRESHOLD)
with _ImageClassifier.create_from_options(options) as classifier:
# Performs image classification on the input.
image_result = classifier.classify(self.test_image)
classifications = image_result.classifications
for classification in classifications:
for entry in classification.entries:
score = entry.categories[0].score
self.assertGreaterEqual(
score, _SCORE_THRESHOLD,
f'Classification with score lower than threshold found. '
f'{classification}')
def test_max_results_option(self):
options = _ImageClassifierOptions(
base_options=_BaseOptions(file_name=self.model_path),
max_results=_MAX_RESULTS)
with _ImageClassifier.create_from_options(options) as classifier:
# Performs image classification on the input.
image_result = classifier.classify(self.test_image)
categories = image_result.classifications[0].entries[0].categories
self.assertLessEqual(
len(categories), _MAX_RESULTS, 'Too many results returned.')
def test_allow_list_option(self):
options = _ImageClassifierOptions(
base_options=_BaseOptions(file_name=self.model_path),
category_allowlist=_ALLOW_LIST)
with _ImageClassifier.create_from_options(options) as classifier:
# Performs image classification on the input.
image_result = classifier.classify(self.test_image)
classifications = image_result.classifications
for classification in classifications:
for entry in classification.entries:
label = entry.categories[0].category_name
self.assertIn(label, _ALLOW_LIST,
f'Label {label} found but not in label allow list')
def test_deny_list_option(self):
options = _ImageClassifierOptions(
base_options=_BaseOptions(file_name=self.model_path),
category_denylist=_DENY_LIST)
with _ImageClassifier.create_from_options(options) as classifier:
# Performs image classification on the input.
image_result = classifier.classify(self.test_image)
classifications = image_result.classifications
for classification in classifications:
for entry in classification.entries:
label = entry.categories[0].category_name
self.assertNotIn(label, _DENY_LIST,
f'Label {label} found but in deny list.')
def test_combined_allowlist_and_denylist(self):
# Fails with combined allowlist and denylist
with self.assertRaisesRegex(
ValueError,
r'`category_allowlist` and `category_denylist` are mutually '
r'exclusive options.'):
options = _ImageClassifierOptions(
base_options=_BaseOptions(file_name=self.model_path),
category_allowlist=['foo'],
category_denylist=['bar'])
with _ImageClassifier.create_from_options(options) as unused_classifier:
pass
def test_empty_classification_outputs(self):
options = _ImageClassifierOptions(
base_options=_BaseOptions(file_name=self.model_path), score_threshold=1)
with _ImageClassifier.create_from_options(options) as classifier:
# Performs image classification on the input.
image_result = classifier.classify(self.test_image)
self.assertEmpty(image_result.classifications[0].entries[0].categories)
def test_missing_result_callback(self):
options = _ImageClassifierOptions(
base_options=_BaseOptions(file_name=self.model_path),
running_mode=_RUNNING_MODE.LIVE_STREAM)
with self.assertRaisesRegex(ValueError,
r'result callback must be provided'):
with _ImageClassifier.create_from_options(options) as unused_classifier:
pass
@parameterized.parameters((_RUNNING_MODE.IMAGE), (_RUNNING_MODE.VIDEO))
def test_illegal_result_callback(self, running_mode):
def pass_through(unused_result: _ClassificationResult):
pass
options = _ImageClassifierOptions(
base_options=_BaseOptions(file_name=self.model_path),
running_mode=running_mode,
result_callback=pass_through)
with self.assertRaisesRegex(ValueError,
r'result callback should not be provided'):
with _ImageClassifier.create_from_options(options) as unused_classifier:
pass
# @parameterized.parameters((0, _EXPECTED_CLASSIFICATION_RESULT),
# (1, _ClassificationResult(classifications=[])))
# def test_classify_async_calls(self, threshold, expected_result):
# observed_timestamp_ms = -1
#
# def check_result(result: _ClassificationResult, timestamp_ms: int):
# self.assertEqual(result, expected_result)
# self.assertLess(observed_timestamp_ms, timestamp_ms)
# self.observed_timestamp_ms = timestamp_ms
#
# options = _ImageClassifierOptions(
# base_options=_BaseOptions(file_name=self.model_path),
# running_mode=_RUNNING_MODE.LIVE_STREAM,
# max_results=4,
# score_threshold=threshold,
# result_callback=check_result)
# classifier = _ImageClassifier.create_from_options(options)
# for timestamp in range(0, 300, 30):
# classifier.classify_async(self.test_image, timestamp)
# classifier.close()
if __name__ == '__main__':
absltest.main()

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@ -36,3 +36,23 @@ py_library(
"//mediapipe/tasks/python/vision/core:vision_task_running_mode", "//mediapipe/tasks/python/vision/core:vision_task_running_mode",
], ],
) )
py_library(
name = "image_classification",
srcs = [
"image_classification.py",
],
deps = [
"//mediapipe/python:_framework_bindings",
"//mediapipe/python:packet_creator",
"//mediapipe/python:packet_getter",
"//mediapipe/tasks/cc/components:classifier_options_py_pb2",
"//mediapipe/tasks/cc/vision/image_classification:image_classifier_options_py_pb2",
"//mediapipe/tasks/python/components/containers:classifications",
"//mediapipe/tasks/python/core:base_options",
"//mediapipe/tasks/python/core:optional_dependencies",
"//mediapipe/tasks/python/core:task_info",
"//mediapipe/tasks/python/vision/core:base_vision_task_api",
"//mediapipe/tasks/python/vision/core:vision_task_running_mode",
],
)

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@ -0,0 +1,227 @@
# 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 image classifier task."""
import dataclasses
from typing import Callable, List, Mapping, Optional
from mediapipe.python import packet_creator
from mediapipe.python import packet_getter
from mediapipe.python._framework_bindings import image as image_module
from mediapipe.python._framework_bindings import packet as packet_module
from mediapipe.python._framework_bindings import task_runner as task_runner_module
from mediapipe.tasks.cc.components import classifier_options_pb2
from mediapipe.tasks.cc.vision.image_classification import image_classifier_options_pb2
from mediapipe.tasks.python.components.containers import classifications as classifications_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.vision.core import base_vision_task_api
from mediapipe.tasks.python.vision.core import vision_task_running_mode as running_mode_module
_BaseOptions = base_options_module.BaseOptions
_ClassifierOptionsProto = classifier_options_pb2.ClassifierOptions
_ImageClassifierOptionsProto = image_classifier_options_pb2.ImageClassifierOptions
_RunningMode = running_mode_module.VisionTaskRunningMode
_TaskInfo = task_info_module.TaskInfo
_TaskRunner = task_runner_module.TaskRunner
_CLASSIFICATION_RESULT_OUT_STREAM_NAME = 'classification_result_out'
_CLASSIFICATION_RESULT_TAG = 'CLASSIFICATION_RESULT'
_IMAGE_IN_STREAM_NAME = 'image_in'
_IMAGE_TAG = 'IMAGE'
_TASK_GRAPH_NAME = 'mediapipe.tasks.vision.ImageClassifierGraph'
@dataclasses.dataclass
class ImageClassifierOptions:
"""Options for the image classifier task.
Attributes:
base_options: Base options for the image classifier task.
running_mode: The running mode of the task. Default to the image mode.
Image classifier task has three running modes:
1) The image mode for classifying objects on single image inputs.
2) The video mode for classifying objects on the decoded frames of a
video.
3) The live stream mode for classifying objects on a live stream of input
data, such as from camera.
display_names_locale: The locale to use for display names specified through
the TFLite Model Metadata.
max_results: The maximum number of top-scored classification results to
return.
score_threshold: Overrides the ones provided in the model metadata. Results
below this value are rejected.
category_allowlist: Allowlist of category names. If non-empty, detection
results whose category name is not in this set will be filtered out.
Duplicate or unknown category names are ignored. Mutually exclusive with
`category_denylist`.
category_denylist: Denylist of category names. If non-empty, detection
results whose category name is in this set will be filtered out. Duplicate
or unknown category names are ignored. Mutually exclusive with
`category_allowlist`.
result_callback: The user-defined result callback for processing live stream
data. The result callback should only be specified when the running mode
is set to the live stream mode.
"""
base_options: _BaseOptions
running_mode: _RunningMode = _RunningMode.IMAGE
display_names_locale: Optional[str] = None
max_results: Optional[int] = None
score_threshold: Optional[float] = None
category_allowlist: Optional[List[str]] = None
category_denylist: Optional[List[str]] = None
result_callback: Optional[
Callable[[classifications_module.ClassificationResult], None]] = None
@doc_controls.do_not_generate_docs
def to_pb2(self) -> _ImageClassifierOptionsProto:
"""Generates an ImageClassifierOptions protobuf object."""
base_options_proto = self.base_options.to_pb2()
base_options_proto.use_stream_mode = False if self.running_mode == _RunningMode.IMAGE else True
classifier_options_proto = _ClassifierOptionsProto(
display_names_locale=self.display_names_locale,
max_results=self.max_results,
score_threshold=self.score_threshold,
category_allowlist=self.category_allowlist,
category_denylist=self.category_denylist)
return _ImageClassifierOptionsProto(
base_options=base_options_proto,
classifier_options=classifier_options_proto
)
class ImageClassifier(base_vision_task_api.BaseVisionTaskApi):
"""Class that performs image classification on images."""
@classmethod
def create_from_model_path(cls, model_path: str) -> 'ImageClassifier':
"""Creates an `ImageClassifier` object from a TensorFlow Lite model and the default `ImageClassifierOptions`.
Note that the created `ImageClassifier` instance is in image mode, for
detecting objects on single image inputs.
Args:
model_path: Path to the model.
Returns:
`ImageClassifier` object that's created from the model file and the default
`ImageClassifierOptions`.
Raises:
ValueError: If failed to create `ImageClassifier` object from the provided
file such as invalid file path.
RuntimeError: If other types of error occurred.
"""
base_options = _BaseOptions(file_name=model_path)
options = ImageClassifierOptions(
base_options=base_options, running_mode=_RunningMode.IMAGE)
return cls.create_from_options(options)
@classmethod
def create_from_options(cls,
options: ImageClassifierOptions) -> 'ImageClassifier':
"""Creates the `ImageClassifier` object from image classifier options.
Args:
options: Options for the image classifier task.
Returns:
`ImageClassifier` object that's created from `options`.
Raises:
ValueError: If failed to create `ImageClassifier` object from
`ImageClassifierOptions` such as missing the model.
RuntimeError: If other types of error occurred.
"""
def packets_callback(output_packets: Mapping[str, packet_module.Packet]):
classification_result_proto = packet_getter.get_proto(
output_packets[_CLASSIFICATION_RESULT_OUT_STREAM_NAME])
classification_result = classifications_module.ClassificationResult([
classifications_module.Classifications.create_from_pb2(classification)
for classification in classification_result_proto.classifications
])
options.result_callback(classification_result)
task_info = _TaskInfo(
task_graph=_TASK_GRAPH_NAME,
input_streams=[':'.join([_IMAGE_TAG, _IMAGE_IN_STREAM_NAME])],
output_streams=[
':'.join([_CLASSIFICATION_RESULT_TAG,
_CLASSIFICATION_RESULT_OUT_STREAM_NAME])
],
task_options=options)
return cls(
task_info.generate_graph_config(
enable_flow_limiting=options.running_mode ==
_RunningMode.LIVE_STREAM), options.running_mode,
packets_callback if options.result_callback else None)
# TODO: Create an Image class for MediaPipe Tasks.
def classify(
self,
image: image_module.Image
) -> classifications_module.ClassificationResult:
"""Performs image classification on the provided MediaPipe Image.
Args:
image: MediaPipe Image.
Returns:
A classification result object that contains a list of classifications.
Raises:
ValueError: If any of the input arguments is invalid.
RuntimeError: If image classification failed to run.
"""
output_packets = self._process_image_data(
{_IMAGE_IN_STREAM_NAME: packet_creator.create_image(image)})
classification_result_proto = packet_getter.get_proto(
output_packets[_CLASSIFICATION_RESULT_OUT_STREAM_NAME])
return classifications_module.ClassificationResult([
classifications_module.Classifications.create_from_pb2(classification)
for classification in classification_result_proto.classifications
])
def classify_async(self, image: image_module.Image, timestamp_ms: int) -> None:
"""Sends live image data (an Image with a unique timestamp) to perform image
classification.
This method will return immediately after the input image is accepted. The
results will be available via the `result_callback` provided in the
`ImageClassifierOptions`. The `detect_async` method is designed to process
live stream data such as camera input. To lower the overall latency, image
classifier may drop the input images if needed. In other words, it's not
guaranteed to have output per input image. The `result_callback` provides:
- A classification result object that contains a list of classifications.
- The input image that the image classifier runs on.
- The input timestamp in milliseconds.
Args:
image: MediaPipe Image.
timestamp_ms: The timestamp of the input image in milliseconds.
Raises:
ValueError: If the current input timestamp is smaller than what the image
classifier has already processed.
"""
self._send_live_stream_data({
_IMAGE_IN_STREAM_NAME:
packet_creator.create_image(image).at(timestamp_ms)
})