HPSv2 / tests /test_inference.py
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import os
import pytest
import torch
import open_clip
import util_test
os.environ['CUDA_VISIBLE_DEVICES'] = ''
if hasattr(torch._C, '_jit_set_profiling_executor'):
# legacy executor is too slow to compile large models for unit tests
# no need for the fusion performance here
torch._C._jit_set_profiling_executor(True)
torch._C._jit_set_profiling_mode(False)
models_to_test = set(open_clip.list_models())
# testing excemptions
models_to_test = models_to_test.difference({
# not available with timm yet
# see https://github.com/mlfoundations/open_clip/issues/219
'convnext_xlarge',
'convnext_xxlarge',
'convnext_xxlarge_320',
'vit_medium_patch16_gap_256',
# exceeds GH runner memory limit
'ViT-bigG-14',
'ViT-e-14',
'mt5-xl-ViT-H-14',
'coca_base',
'coca_ViT-B-32',
'coca_roberta-ViT-B-32'
})
if 'OPEN_CLIP_TEST_REG_MODELS' in os.environ:
external_model_list = os.environ['OPEN_CLIP_TEST_REG_MODELS']
with open(external_model_list, 'r') as f:
models_to_test = set(f.read().splitlines()).intersection(models_to_test)
print(f"Selected models from {external_model_list}: {models_to_test}")
# TODO: add "coca_ViT-B-32" onece https://github.com/pytorch/pytorch/issues/92073 gets fixed
models_to_test = list(models_to_test)
models_to_test.sort()
models_to_test = [(model_name, False) for model_name in models_to_test]
models_to_jit_test = {"ViT-B-32"}
models_to_jit_test = list(models_to_jit_test)
models_to_jit_test = [(model_name, True) for model_name in models_to_jit_test]
models_to_test_fully = models_to_test + models_to_jit_test
@pytest.mark.regression_test
@pytest.mark.parametrize("model_name,jit", models_to_test_fully)
def test_inference_with_data(
model_name,
jit,
pretrained = None,
pretrained_hf = False,
precision = 'fp32',
force_quick_gelu = False,
):
util_test.seed_all()
model, _, preprocess_val = open_clip.create_model_and_transforms(
model_name,
pretrained = pretrained,
precision = precision,
jit = jit,
force_quick_gelu = force_quick_gelu,
pretrained_hf = pretrained_hf
)
model_id = f'{model_name}_{pretrained or pretrained_hf}_{precision}'
input_dir, output_dir = util_test.get_data_dirs()
# text
input_text_path = os.path.join(input_dir, 'random_text.pt')
gt_text_path = os.path.join(output_dir, f'{model_id}_random_text.pt')
if not os.path.isfile(input_text_path):
pytest.skip(reason = f"missing test data, expected at {input_text_path}")
if not os.path.isfile(gt_text_path):
pytest.skip(reason = f"missing test data, expected at {gt_text_path}")
input_text = torch.load(input_text_path)
gt_text = torch.load(gt_text_path)
y_text = util_test.inference_text(model, model_name, input_text)
assert (y_text == gt_text).all(), f"text output differs @ {input_text_path}"
# image
image_size = model.visual.image_size
if not isinstance(image_size, tuple):
image_size = (image_size, image_size)
input_image_path = os.path.join(input_dir, f'random_image_{image_size[0]}_{image_size[1]}.pt')
gt_image_path = os.path.join(output_dir, f'{model_id}_random_image.pt')
if not os.path.isfile(input_image_path):
pytest.skip(reason = f"missing test data, expected at {input_image_path}")
if not os.path.isfile(gt_image_path):
pytest.skip(reason = f"missing test data, expected at {gt_image_path}")
input_image = torch.load(input_image_path)
gt_image = torch.load(gt_image_path)
y_image = util_test.inference_image(model, preprocess_val, input_image)
assert (y_image == gt_image).all(), f"image output differs @ {input_image_path}"
if not jit:
model.eval()
model_out = util_test.forward_model(model, model_name, preprocess_val, input_image, input_text)
if type(model) not in [open_clip.CLIP, open_clip.CustomTextCLIP]:
assert type(model_out) == dict
else:
model.output_dict = True
model_out_dict = util_test.forward_model(model, model_name, preprocess_val, input_image, input_text)
assert (model_out_dict["image_features"] == model_out[0]).all()
assert (model_out_dict["text_features"] == model_out[1]).all()
assert (model_out_dict["logit_scale"] == model_out[2]).all()
model.output_dict = None
else:
model, _, preprocess_val = open_clip.create_model_and_transforms(
model_name,
pretrained = pretrained,
precision = precision,
jit = False,
force_quick_gelu = force_quick_gelu,
pretrained_hf = pretrained_hf
)
test_model = util_test.TestWrapper(model, model_name, output_dict=False)
test_model = torch.jit.script(test_model)
model_out = util_test.forward_model(test_model, model_name, preprocess_val, input_image, input_text)
assert model_out["test_output"].shape[-1] == 2
test_model = util_test.TestWrapper(model, model_name, output_dict=True)
test_model = torch.jit.script(test_model)
model_out = util_test.forward_model(test_model, model_name, preprocess_val, input_image, input_text)
assert model_out["test_output"].shape[-1] == 2