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sd3-test-r
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6ec4dee783 | ||
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50015c966a |
@@ -13,58 +13,63 @@
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import unittest
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import torch
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from diffusers import SD3Transformer2DModel
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from diffusers.utils.import_utils import is_xformers_available
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from diffusers.utils.torch_utils import randn_tensor
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from ...testing_utils import (
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enable_full_determinism,
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torch_device,
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from ...testing_utils import enable_full_determinism, torch_device
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from ..testing_utils import (
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BaseModelTesterConfig,
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BitsAndBytesTesterMixin,
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ModelTesterMixin,
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TorchAoTesterMixin,
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TorchCompileTesterMixin,
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TrainingTesterMixin,
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)
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from ..test_modeling_common import ModelTesterMixin
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enable_full_determinism()
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class SD3TransformerTests(ModelTesterMixin, unittest.TestCase):
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model_class = SD3Transformer2DModel
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main_input_name = "hidden_states"
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model_split_percents = [0.8, 0.8, 0.9]
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# ======================== SD3 Transformer ========================
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class SD3TransformerTesterConfig(BaseModelTesterConfig):
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@property
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def model_class(self):
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return SD3Transformer2DModel
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@property
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def dummy_input(self):
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batch_size = 2
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num_channels = 4
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height = width = embedding_dim = 32
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pooled_embedding_dim = embedding_dim * 2
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sequence_length = 154
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def pretrained_model_name_or_path(self):
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return "hf-internal-testing/tiny-sd3-pipe"
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hidden_states = torch.randn((batch_size, num_channels, height, width)).to(torch_device)
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encoder_hidden_states = torch.randn((batch_size, sequence_length, embedding_dim)).to(torch_device)
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pooled_prompt_embeds = torch.randn((batch_size, pooled_embedding_dim)).to(torch_device)
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timestep = torch.randint(0, 1000, size=(batch_size,)).to(torch_device)
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@property
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def pretrained_model_kwargs(self):
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return {"subfolder": "transformer"}
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@property
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def main_input_name(self) -> str:
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return "hidden_states"
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@property
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def model_split_percents(self) -> list:
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return [0.8, 0.8, 0.9]
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@property
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def output_shape(self) -> tuple:
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return (4, 32, 32)
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@property
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def input_shape(self) -> tuple:
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return (4, 32, 32)
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@property
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def generator(self):
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return torch.Generator("cpu").manual_seed(0)
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def get_init_dict(self) -> dict:
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return {
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"hidden_states": hidden_states,
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"encoder_hidden_states": encoder_hidden_states,
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"pooled_projections": pooled_prompt_embeds,
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"timestep": timestep,
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}
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@property
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def input_shape(self):
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return (4, 32, 32)
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@property
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def output_shape(self):
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return (4, 32, 32)
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def prepare_init_args_and_inputs_for_common(self):
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init_dict = {
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"sample_size": 32,
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"patch_size": 1,
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"in_channels": 4,
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@@ -79,67 +84,79 @@ class SD3TransformerTests(ModelTesterMixin, unittest.TestCase):
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"dual_attention_layers": (),
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"qk_norm": None,
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}
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inputs_dict = self.dummy_input
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return init_dict, inputs_dict
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@unittest.skipIf(
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torch_device != "cuda" or not is_xformers_available(),
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reason="XFormers attention is only available with CUDA and `xformers` installed",
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)
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def test_xformers_enable_works(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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model.enable_xformers_memory_efficient_attention()
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assert model.transformer_blocks[0].attn.processor.__class__.__name__ == "XFormersJointAttnProcessor", (
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"xformers is not enabled"
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)
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@unittest.skip("SD3Transformer2DModel uses a dedicated attention processor. This test doesn't apply")
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def test_set_attn_processor_for_determinism(self):
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pass
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def test_gradient_checkpointing_is_applied(self):
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expected_set = {"SD3Transformer2DModel"}
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super().test_gradient_checkpointing_is_applied(expected_set=expected_set)
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class SD35TransformerTests(ModelTesterMixin, unittest.TestCase):
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model_class = SD3Transformer2DModel
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main_input_name = "hidden_states"
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model_split_percents = [0.8, 0.8, 0.9]
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@property
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def dummy_input(self):
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batch_size = 2
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def get_dummy_inputs(self, batch_size: int = 2) -> dict[str, torch.Tensor]:
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num_channels = 4
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height = width = embedding_dim = 32
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pooled_embedding_dim = embedding_dim * 2
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sequence_length = 154
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hidden_states = torch.randn((batch_size, num_channels, height, width)).to(torch_device)
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encoder_hidden_states = torch.randn((batch_size, sequence_length, embedding_dim)).to(torch_device)
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pooled_prompt_embeds = torch.randn((batch_size, pooled_embedding_dim)).to(torch_device)
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timestep = torch.randint(0, 1000, size=(batch_size,)).to(torch_device)
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return {
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"hidden_states": hidden_states,
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"encoder_hidden_states": encoder_hidden_states,
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"pooled_projections": pooled_prompt_embeds,
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"timestep": timestep,
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"hidden_states": randn_tensor(
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(batch_size, num_channels, height, width), generator=self.generator, device=torch_device
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),
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"encoder_hidden_states": randn_tensor(
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(batch_size, sequence_length, embedding_dim), generator=self.generator, device=torch_device
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),
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"pooled_projections": randn_tensor(
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(batch_size, pooled_embedding_dim), generator=self.generator, device=torch_device
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),
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"timestep": torch.randint(0, 1000, size=(batch_size,), generator=self.generator).to(torch_device),
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}
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class TestSD3Transformer(SD3TransformerTesterConfig, ModelTesterMixin):
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pass
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class TestSD3TransformerTraining(SD3TransformerTesterConfig, TrainingTesterMixin):
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def test_gradient_checkpointing_is_applied(self):
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expected_set = {"SD3Transformer2DModel"}
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super().test_gradient_checkpointing_is_applied(expected_set=expected_set)
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class TestSD3TransformerCompile(SD3TransformerTesterConfig, TorchCompileTesterMixin):
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pass
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# ======================== SD3.5 Transformer ========================
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class SD35TransformerTesterConfig(BaseModelTesterConfig):
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@property
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def input_shape(self):
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def model_class(self):
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return SD3Transformer2DModel
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@property
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def pretrained_model_name_or_path(self):
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return "hf-internal-testing/tiny-sd35-pipe"
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@property
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def pretrained_model_kwargs(self):
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return {"subfolder": "transformer"}
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@property
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def main_input_name(self) -> str:
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return "hidden_states"
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@property
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def model_split_percents(self) -> list:
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return [0.8, 0.8, 0.9]
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@property
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def output_shape(self) -> tuple:
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return (4, 32, 32)
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@property
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def output_shape(self):
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def input_shape(self) -> tuple:
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return (4, 32, 32)
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def prepare_init_args_and_inputs_for_common(self):
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init_dict = {
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@property
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def generator(self):
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return torch.Generator("cpu").manual_seed(0)
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def get_init_dict(self) -> dict:
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return {
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"sample_size": 32,
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"patch_size": 1,
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"in_channels": 4,
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@@ -154,47 +171,56 @@ class SD35TransformerTests(ModelTesterMixin, unittest.TestCase):
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"dual_attention_layers": (0,),
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"qk_norm": "rms_norm",
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}
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inputs_dict = self.dummy_input
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return init_dict, inputs_dict
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@unittest.skipIf(
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torch_device != "cuda" or not is_xformers_available(),
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reason="XFormers attention is only available with CUDA and `xformers` installed",
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)
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def test_xformers_enable_works(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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model = self.model_class(**init_dict)
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def get_dummy_inputs(self, batch_size: int = 2) -> dict[str, torch.Tensor]:
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num_channels = 4
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height = width = embedding_dim = 32
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pooled_embedding_dim = embedding_dim * 2
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sequence_length = 154
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model.enable_xformers_memory_efficient_attention()
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return {
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"hidden_states": randn_tensor(
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(batch_size, num_channels, height, width), generator=self.generator, device=torch_device
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),
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"encoder_hidden_states": randn_tensor(
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(batch_size, sequence_length, embedding_dim), generator=self.generator, device=torch_device
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),
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"pooled_projections": randn_tensor(
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(batch_size, pooled_embedding_dim), generator=self.generator, device=torch_device
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),
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"timestep": torch.randint(0, 1000, size=(batch_size,), generator=self.generator).to(torch_device),
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}
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assert model.transformer_blocks[0].attn.processor.__class__.__name__ == "XFormersJointAttnProcessor", (
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"xformers is not enabled"
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)
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@unittest.skip("SD3Transformer2DModel uses a dedicated attention processor. This test doesn't apply")
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def test_set_attn_processor_for_determinism(self):
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pass
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def test_gradient_checkpointing_is_applied(self):
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expected_set = {"SD3Transformer2DModel"}
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super().test_gradient_checkpointing_is_applied(expected_set=expected_set)
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class TestSD35Transformer(SD35TransformerTesterConfig, ModelTesterMixin):
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def test_skip_layers(self):
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init_dict, inputs_dict = self.prepare_init_args_and_inputs_for_common()
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init_dict = self.get_init_dict()
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inputs_dict = self.get_dummy_inputs()
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model = self.model_class(**init_dict).to(torch_device)
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# Forward pass without skipping layers
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output_full = model(**inputs_dict).sample
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# Forward pass with skipping layers 0 (since there's only one layer in this test setup)
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inputs_dict_with_skip = inputs_dict.copy()
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inputs_dict_with_skip["skip_layers"] = [0]
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output_skip = model(**inputs_dict_with_skip).sample
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# Check that the outputs are different
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self.assertFalse(
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torch.allclose(output_full, output_skip, atol=1e-5), "Outputs should differ when layers are skipped"
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)
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assert not torch.allclose(output_full, output_skip, atol=1e-5), "Outputs should differ when layers are skipped"
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assert output_full.shape == output_skip.shape, "Outputs should have the same shape"
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# Check that the outputs have the same shape
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self.assertEqual(output_full.shape, output_skip.shape, "Outputs should have the same shape")
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class TestSD35TransformerTraining(SD35TransformerTesterConfig, TrainingTesterMixin):
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def test_gradient_checkpointing_is_applied(self):
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expected_set = {"SD3Transformer2DModel"}
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super().test_gradient_checkpointing_is_applied(expected_set=expected_set)
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class TestSD35TransformerCompile(SD35TransformerTesterConfig, TorchCompileTesterMixin):
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pass
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class TestSD35TransformerBitsAndBytes(SD35TransformerTesterConfig, BitsAndBytesTesterMixin):
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"""BitsAndBytes quantization tests for SD3.5 Transformer."""
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class TestSD35TransformerTorchAo(SD35TransformerTesterConfig, TorchAoTesterMixin):
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"""TorchAO quantization tests for SD3.5 Transformer."""
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