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voice_clone_v3 / transformers /tests /pipelines /test_pipelines_image_segmentation.py
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# Copyright 2021 The HuggingFace Team. 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.
import hashlib
import tempfile
import unittest
from typing import Dict
import datasets
import numpy as np
import requests
from datasets import load_dataset
from transformers import (
MODEL_FOR_IMAGE_SEGMENTATION_MAPPING,
MODEL_FOR_INSTANCE_SEGMENTATION_MAPPING,
MODEL_FOR_SEMANTIC_SEGMENTATION_MAPPING,
AutoImageProcessor,
AutoModelForImageSegmentation,
AutoModelForInstanceSegmentation,
DetrForSegmentation,
ImageSegmentationPipeline,
MaskFormerForInstanceSegmentation,
is_vision_available,
pipeline,
)
from transformers.testing_utils import (
is_pipeline_test,
nested_simplify,
require_tf,
require_timm,
require_torch,
require_vision,
slow,
)
from .test_pipelines_common import ANY
if is_vision_available():
from PIL import Image
else:
class Image:
@staticmethod
def open(*args, **kwargs):
pass
def hashimage(image: Image) -> str:
m = hashlib.md5(image.tobytes())
return m.hexdigest()[:10]
def mask_to_test_readable(mask: Image) -> Dict:
npimg = np.array(mask)
white_pixels = (npimg == 255).sum()
shape = npimg.shape
return {"hash": hashimage(mask), "white_pixels": white_pixels, "shape": shape}
def mask_to_test_readable_only_shape(mask: Image) -> Dict:
npimg = np.array(mask)
shape = npimg.shape
return {"shape": shape}
@is_pipeline_test
@require_vision
@require_timm
@require_torch
class ImageSegmentationPipelineTests(unittest.TestCase):
model_mapping = dict(
(list(MODEL_FOR_IMAGE_SEGMENTATION_MAPPING.items()) if MODEL_FOR_IMAGE_SEGMENTATION_MAPPING else [])
+ (MODEL_FOR_SEMANTIC_SEGMENTATION_MAPPING.items() if MODEL_FOR_SEMANTIC_SEGMENTATION_MAPPING else [])
+ (MODEL_FOR_INSTANCE_SEGMENTATION_MAPPING.items() if MODEL_FOR_INSTANCE_SEGMENTATION_MAPPING else [])
)
def get_test_pipeline(self, model, tokenizer, processor):
image_segmenter = ImageSegmentationPipeline(model=model, image_processor=processor)
return image_segmenter, [
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
]
def run_pipeline_test(self, image_segmenter, examples):
outputs = image_segmenter(
"./tests/fixtures/tests_samples/COCO/000000039769.png",
threshold=0.0,
mask_threshold=0,
overlap_mask_area_threshold=0,
)
self.assertIsInstance(outputs, list)
n = len(outputs)
if isinstance(image_segmenter.model, (MaskFormerForInstanceSegmentation, DetrForSegmentation)):
# Instance segmentation (maskformer, and detr) have a slot for null class
# and can output nothing even with a low threshold
self.assertGreaterEqual(n, 0)
else:
self.assertGreaterEqual(n, 1)
# XXX: PIL.Image implements __eq__ which bypasses ANY, so we inverse the comparison
# to make it work
self.assertEqual([{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * n, outputs)
dataset = datasets.load_dataset("hf-internal-testing/fixtures_image_utils", "image", split="test")
# RGBA
outputs = image_segmenter(dataset[0]["file"], threshold=0.0, mask_threshold=0, overlap_mask_area_threshold=0)
m = len(outputs)
self.assertEqual([{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * m, outputs)
# LA
outputs = image_segmenter(dataset[1]["file"], threshold=0.0, mask_threshold=0, overlap_mask_area_threshold=0)
m = len(outputs)
self.assertEqual([{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * m, outputs)
# L
outputs = image_segmenter(dataset[2]["file"], threshold=0.0, mask_threshold=0, overlap_mask_area_threshold=0)
m = len(outputs)
self.assertEqual([{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * m, outputs)
if isinstance(image_segmenter.model, DetrForSegmentation):
# We need to test batch_size with images with the same size.
# Detr doesn't normalize the size of the images, meaning we can have
# 800x800 or 800x1200, meaning we cannot batch simply.
# We simply bail on this
batch_size = 1
else:
batch_size = 2
# 5 times the same image so the output shape is predictable
batch = [
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
]
outputs = image_segmenter(
batch,
threshold=0.0,
mask_threshold=0,
overlap_mask_area_threshold=0,
batch_size=batch_size,
)
self.assertEqual(len(batch), len(outputs))
self.assertEqual(len(outputs[0]), n)
self.assertEqual(
[
[{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * n,
[{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * n,
[{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * n,
[{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * n,
[{"score": ANY(float, type(None)), "label": ANY(str), "mask": ANY(Image.Image)}] * n,
],
outputs,
f"Expected [{n}, {n}, {n}, {n}, {n}], got {[len(item) for item in outputs]}",
)
@require_tf
@unittest.skip("Image segmentation not implemented in TF")
def test_small_model_tf(self):
pass
@require_torch
def test_small_model_pt_no_panoptic(self):
model_id = "hf-internal-testing/tiny-random-mobilevit"
# The default task is `image-classification` we need to override
pipe = pipeline(task="image-segmentation", model=model_id)
# This model does NOT support neither `instance` nor `panoptic`
# We should error out
with self.assertRaises(ValueError) as e:
pipe("http://images.cocodataset.org/val2017/000000039769.jpg", subtask="panoptic")
self.assertEqual(
str(e.exception),
"Subtask panoptic is not supported for model <class"
" 'transformers.models.mobilevit.modeling_mobilevit.MobileViTForSemanticSegmentation'>",
)
with self.assertRaises(ValueError) as e:
pipe("http://images.cocodataset.org/val2017/000000039769.jpg", subtask="instance")
self.assertEqual(
str(e.exception),
"Subtask instance is not supported for model <class"
" 'transformers.models.mobilevit.modeling_mobilevit.MobileViTForSemanticSegmentation'>",
)
@require_torch
def test_small_model_pt(self):
model_id = "hf-internal-testing/tiny-detr-mobilenetsv3-panoptic"
model = AutoModelForImageSegmentation.from_pretrained(model_id)
image_processor = AutoImageProcessor.from_pretrained(model_id)
image_segmenter = ImageSegmentationPipeline(
model=model,
image_processor=image_processor,
subtask="panoptic",
threshold=0.0,
mask_threshold=0.0,
overlap_mask_area_threshold=0.0,
)
outputs = image_segmenter(
"http://images.cocodataset.org/val2017/000000039769.jpg",
)
# Shortening by hashing
for o in outputs:
o["mask"] = mask_to_test_readable(o["mask"])
# This is extremely brittle, and those values are made specific for the CI.
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": 0.004,
"label": "LABEL_215",
"mask": {"hash": "a01498ca7c", "shape": (480, 640), "white_pixels": 307200},
},
],
)
outputs = image_segmenter(
[
"http://images.cocodataset.org/val2017/000000039769.jpg",
"http://images.cocodataset.org/val2017/000000039769.jpg",
],
)
for output in outputs:
for o in output:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
[
{
"score": 0.004,
"label": "LABEL_215",
"mask": {"hash": "a01498ca7c", "shape": (480, 640), "white_pixels": 307200},
},
],
[
{
"score": 0.004,
"label": "LABEL_215",
"mask": {"hash": "a01498ca7c", "shape": (480, 640), "white_pixels": 307200},
},
],
],
)
output = image_segmenter("http://images.cocodataset.org/val2017/000000039769.jpg", subtask="instance")
for o in output:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(output, decimals=4),
[
{
"score": 0.004,
"label": "LABEL_215",
"mask": {"hash": "a01498ca7c", "shape": (480, 640), "white_pixels": 307200},
},
],
)
# This must be surprising to the reader.
# The `panoptic` returns only LABEL_215, and this returns 3 labels.
#
output = image_segmenter("http://images.cocodataset.org/val2017/000000039769.jpg", subtask="semantic")
output_masks = [o["mask"] for o in output]
# page links (to visualize)
expected_masks = [
"https://huggingface.co/datasets/hf-internal-testing/mask-for-image-segmentation-tests/blob/main/mask_0.png",
"https://huggingface.co/datasets/hf-internal-testing/mask-for-image-segmentation-tests/blob/main/mask_1.png",
"https://huggingface.co/datasets/hf-internal-testing/mask-for-image-segmentation-tests/blob/main/mask_2.png",
]
# actual links to get files
expected_masks = [x.replace("/blob/", "/resolve/") for x in expected_masks]
expected_masks = [Image.open(requests.get(image, stream=True).raw) for image in expected_masks]
# Convert masks to numpy array
output_masks = [np.array(x) for x in output_masks]
expected_masks = [np.array(x) for x in expected_masks]
self.assertEqual(output_masks[0].shape, expected_masks[0].shape)
self.assertEqual(output_masks[1].shape, expected_masks[1].shape)
self.assertEqual(output_masks[2].shape, expected_masks[2].shape)
# With un-trained tiny random models, the output `logits` tensor is very likely to contain many values
# close to each other, which cause `argmax` to give quite different results when running the test on 2
# environments. We use a lower threshold `0.9` here to avoid flakiness.
self.assertGreaterEqual(np.mean(output_masks[0] == expected_masks[0]), 0.9)
self.assertGreaterEqual(np.mean(output_masks[1] == expected_masks[1]), 0.9)
self.assertGreaterEqual(np.mean(output_masks[2] == expected_masks[2]), 0.9)
for o in output:
o["mask"] = mask_to_test_readable_only_shape(o["mask"])
self.maxDiff = None
self.assertEqual(
nested_simplify(output, decimals=4),
[
{
"label": "LABEL_88",
"mask": {"shape": (480, 640)},
"score": None,
},
{
"label": "LABEL_101",
"mask": {"shape": (480, 640)},
"score": None,
},
{
"label": "LABEL_215",
"mask": {"shape": (480, 640)},
"score": None,
},
],
)
@require_torch
def test_small_model_pt_semantic(self):
model_id = "hf-internal-testing/tiny-random-beit-pipeline"
image_segmenter = pipeline(model=model_id)
outputs = image_segmenter("http://images.cocodataset.org/val2017/000000039769.jpg")
for o in outputs:
# shortening by hashing
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": None,
"label": "LABEL_0",
"mask": {"hash": "42d0907228", "shape": (480, 640), "white_pixels": 10714},
},
{
"score": None,
"label": "LABEL_1",
"mask": {"hash": "46b8cc3976", "shape": (480, 640), "white_pixels": 296486},
},
],
)
@require_torch
@slow
def test_integration_torch_image_segmentation(self):
model_id = "facebook/detr-resnet-50-panoptic"
image_segmenter = pipeline(
"image-segmentation",
model=model_id,
threshold=0.0,
overlap_mask_area_threshold=0.0,
)
outputs = image_segmenter(
"http://images.cocodataset.org/val2017/000000039769.jpg",
)
# Shortening by hashing
for o in outputs:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": 0.9094,
"label": "blanket",
"mask": {"hash": "dcff19a97a", "shape": (480, 640), "white_pixels": 16617},
},
{
"score": 0.9941,
"label": "cat",
"mask": {"hash": "9c0af87bd0", "shape": (480, 640), "white_pixels": 59185},
},
{
"score": 0.9987,
"label": "remote",
"mask": {"hash": "c7870600d6", "shape": (480, 640), "white_pixels": 4182},
},
{
"score": 0.9995,
"label": "remote",
"mask": {"hash": "ef899a25fd", "shape": (480, 640), "white_pixels": 2275},
},
{
"score": 0.9722,
"label": "couch",
"mask": {"hash": "37b8446ac5", "shape": (480, 640), "white_pixels": 172380},
},
{
"score": 0.9994,
"label": "cat",
"mask": {"hash": "6a09d3655e", "shape": (480, 640), "white_pixels": 52561},
},
],
)
outputs = image_segmenter(
[
"http://images.cocodataset.org/val2017/000000039769.jpg",
"http://images.cocodataset.org/val2017/000000039769.jpg",
],
)
# Shortening by hashing
for output in outputs:
for o in output:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
[
{
"score": 0.9094,
"label": "blanket",
"mask": {"hash": "dcff19a97a", "shape": (480, 640), "white_pixels": 16617},
},
{
"score": 0.9941,
"label": "cat",
"mask": {"hash": "9c0af87bd0", "shape": (480, 640), "white_pixels": 59185},
},
{
"score": 0.9987,
"label": "remote",
"mask": {"hash": "c7870600d6", "shape": (480, 640), "white_pixels": 4182},
},
{
"score": 0.9995,
"label": "remote",
"mask": {"hash": "ef899a25fd", "shape": (480, 640), "white_pixels": 2275},
},
{
"score": 0.9722,
"label": "couch",
"mask": {"hash": "37b8446ac5", "shape": (480, 640), "white_pixels": 172380},
},
{
"score": 0.9994,
"label": "cat",
"mask": {"hash": "6a09d3655e", "shape": (480, 640), "white_pixels": 52561},
},
],
[
{
"score": 0.9094,
"label": "blanket",
"mask": {"hash": "dcff19a97a", "shape": (480, 640), "white_pixels": 16617},
},
{
"score": 0.9941,
"label": "cat",
"mask": {"hash": "9c0af87bd0", "shape": (480, 640), "white_pixels": 59185},
},
{
"score": 0.9987,
"label": "remote",
"mask": {"hash": "c7870600d6", "shape": (480, 640), "white_pixels": 4182},
},
{
"score": 0.9995,
"label": "remote",
"mask": {"hash": "ef899a25fd", "shape": (480, 640), "white_pixels": 2275},
},
{
"score": 0.9722,
"label": "couch",
"mask": {"hash": "37b8446ac5", "shape": (480, 640), "white_pixels": 172380},
},
{
"score": 0.9994,
"label": "cat",
"mask": {"hash": "6a09d3655e", "shape": (480, 640), "white_pixels": 52561},
},
],
],
)
@require_torch
@slow
def test_threshold(self):
model_id = "facebook/detr-resnet-50-panoptic"
image_segmenter = pipeline("image-segmentation", model=model_id)
outputs = image_segmenter("http://images.cocodataset.org/val2017/000000039769.jpg", threshold=0.999)
# Shortening by hashing
for o in outputs:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": 0.9995,
"label": "remote",
"mask": {"hash": "d02404f578", "shape": (480, 640), "white_pixels": 2789},
},
{
"score": 0.9994,
"label": "cat",
"mask": {"hash": "eaa115b40c", "shape": (480, 640), "white_pixels": 304411},
},
],
)
outputs = image_segmenter("http://images.cocodataset.org/val2017/000000039769.jpg", threshold=0.5)
for o in outputs:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": 0.9941,
"label": "cat",
"mask": {"hash": "9c0af87bd0", "shape": (480, 640), "white_pixels": 59185},
},
{
"score": 0.9987,
"label": "remote",
"mask": {"hash": "c7870600d6", "shape": (480, 640), "white_pixels": 4182},
},
{
"score": 0.9995,
"label": "remote",
"mask": {"hash": "ef899a25fd", "shape": (480, 640), "white_pixels": 2275},
},
{
"score": 0.9722,
"label": "couch",
"mask": {"hash": "37b8446ac5", "shape": (480, 640), "white_pixels": 172380},
},
{
"score": 0.9994,
"label": "cat",
"mask": {"hash": "6a09d3655e", "shape": (480, 640), "white_pixels": 52561},
},
],
)
@require_torch
@slow
def test_maskformer(self):
threshold = 0.8
model_id = "facebook/maskformer-swin-base-ade"
model = AutoModelForInstanceSegmentation.from_pretrained(model_id)
image_processor = AutoImageProcessor.from_pretrained(model_id)
image_segmenter = pipeline("image-segmentation", model=model, image_processor=image_processor)
image = load_dataset("hf-internal-testing/fixtures_ade20k", split="test")
file = image[0]["file"]
outputs = image_segmenter(file, threshold=threshold)
# Shortening by hashing
for o in outputs:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": 0.9974,
"label": "wall",
"mask": {"hash": "a547b7c062", "shape": (512, 683), "white_pixels": 14252},
},
{
"score": 0.949,
"label": "house",
"mask": {"hash": "0da9b7b38f", "shape": (512, 683), "white_pixels": 132177},
},
{
"score": 0.9995,
"label": "grass",
"mask": {"hash": "1d07ea0a26", "shape": (512, 683), "white_pixels": 53444},
},
{
"score": 0.9976,
"label": "tree",
"mask": {"hash": "6cdc97c7da", "shape": (512, 683), "white_pixels": 7944},
},
{
"score": 0.8239,
"label": "plant",
"mask": {"hash": "1ab4ce378f", "shape": (512, 683), "white_pixels": 4136},
},
{
"score": 0.9942,
"label": "road, route",
"mask": {"hash": "39c5d17be5", "shape": (512, 683), "white_pixels": 1941},
},
{
"score": 1.0,
"label": "sky",
"mask": {"hash": "a3756324a6", "shape": (512, 683), "white_pixels": 135802},
},
],
)
@require_torch
@slow
def test_oneformer(self):
image_segmenter = pipeline(model="shi-labs/oneformer_ade20k_swin_tiny")
image = load_dataset("hf-internal-testing/fixtures_ade20k", split="test")
file = image[0]["file"]
outputs = image_segmenter(file, threshold=0.99)
# Shortening by hashing
for o in outputs:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": 0.9981,
"label": "grass",
"mask": {"hash": "3a92904d4c", "white_pixels": 118131, "shape": (512, 683)},
},
{
"score": 0.9992,
"label": "sky",
"mask": {"hash": "fa2300cc9a", "white_pixels": 231565, "shape": (512, 683)},
},
],
)
# Different task
outputs = image_segmenter(file, threshold=0.99, subtask="instance")
# Shortening by hashing
for o in outputs:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": 0.9991,
"label": "sky",
"mask": {"hash": "8b1ffad016", "white_pixels": 230566, "shape": (512, 683)},
},
{
"score": 0.9981,
"label": "grass",
"mask": {"hash": "9bbdf83d3d", "white_pixels": 119130, "shape": (512, 683)},
},
],
)
# Different task
outputs = image_segmenter(file, subtask="semantic")
# Shortening by hashing
for o in outputs:
o["mask"] = mask_to_test_readable(o["mask"])
self.assertEqual(
nested_simplify(outputs, decimals=4),
[
{
"score": None,
"label": "wall",
"mask": {"hash": "897fb20b7f", "white_pixels": 14506, "shape": (512, 683)},
},
{
"score": None,
"label": "building",
"mask": {"hash": "f2a68c63e4", "white_pixels": 125019, "shape": (512, 683)},
},
{
"score": None,
"label": "sky",
"mask": {"hash": "e0ca3a548e", "white_pixels": 135330, "shape": (512, 683)},
},
{
"score": None,
"label": "tree",
"mask": {"hash": "7c9544bcac", "white_pixels": 16263, "shape": (512, 683)},
},
{
"score": None,
"label": "road, route",
"mask": {"hash": "2c7704e491", "white_pixels": 2143, "shape": (512, 683)},
},
{
"score": None,
"label": "grass",
"mask": {"hash": "bf6c2867e0", "white_pixels": 53040, "shape": (512, 683)},
},
{
"score": None,
"label": "plant",
"mask": {"hash": "93c4b7199e", "white_pixels": 3335, "shape": (512, 683)},
},
{
"score": None,
"label": "house",
"mask": {"hash": "93ec419ad5", "white_pixels": 60, "shape": (512, 683)},
},
],
)
def test_save_load(self):
model_id = "hf-internal-testing/tiny-detr-mobilenetsv3-panoptic"
model = AutoModelForImageSegmentation.from_pretrained(model_id)
image_processor = AutoImageProcessor.from_pretrained(model_id)
image_segmenter = pipeline(
task="image-segmentation",
model=model,
image_processor=image_processor,
)
with tempfile.TemporaryDirectory() as tmpdirname:
image_segmenter.save_pretrained(tmpdirname)
pipeline(task="image-segmentation", model=tmpdirname)