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from dataclasses import dataclass |
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from typing import Any, Dict, Optional |
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import torch |
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from diffusers.configuration_utils import ConfigMixin, register_to_config |
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from diffusers.models.lora import LoRACompatibleConv, LoRACompatibleLinear |
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from diffusers.models.modeling_utils import ModelMixin |
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from diffusers.models.normalization import AdaLayerNormSingle |
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from diffusers.utils import USE_PEFT_BACKEND, BaseOutput, deprecate, is_torch_version |
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from torch import nn |
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from .attention import BasicTransformerBlock |
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@dataclass |
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class Transformer2DModelOutput(BaseOutput): |
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""" |
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The output of [`Transformer2DModel`]. |
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Args: |
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sample (`torch.FloatTensor` of shape `(batch_size, num_channels, height, width)` or `(batch size, num_vector_embeds - 1, num_latent_pixels)` if [`Transformer2DModel`] is discrete): |
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The hidden states output conditioned on the `encoder_hidden_states` input. If discrete, returns probability |
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distributions for the unnoised latent pixels. |
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""" |
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sample: torch.FloatTensor |
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ref_feature: torch.FloatTensor |
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class Transformer2DModel(ModelMixin, ConfigMixin): |
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""" |
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A 2D Transformer model for image-like data. |
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Parameters: |
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num_attention_heads (`int`, *optional*, defaults to 16): The number of heads to use for multi-head attention. |
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attention_head_dim (`int`, *optional*, defaults to 88): The number of channels in each head. |
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in_channels (`int`, *optional*): |
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The number of channels in the input and output (specify if the input is **continuous**). |
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num_layers (`int`, *optional*, defaults to 1): The number of layers of Transformer blocks to use. |
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dropout (`float`, *optional*, defaults to 0.0): The dropout probability to use. |
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cross_attention_dim (`int`, *optional*): The number of `encoder_hidden_states` dimensions to use. |
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sample_size (`int`, *optional*): The width of the latent images (specify if the input is **discrete**). |
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This is fixed during training since it is used to learn a number of position embeddings. |
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num_vector_embeds (`int`, *optional*): |
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The number of classes of the vector embeddings of the latent pixels (specify if the input is **discrete**). |
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Includes the class for the masked latent pixel. |
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activation_fn (`str`, *optional*, defaults to `"geglu"`): Activation function to use in feed-forward. |
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num_embeds_ada_norm ( `int`, *optional*): |
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The number of diffusion steps used during training. Pass if at least one of the norm_layers is |
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`AdaLayerNorm`. This is fixed during training since it is used to learn a number of embeddings that are |
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added to the hidden states. |
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During inference, you can denoise for up to but not more steps than `num_embeds_ada_norm`. |
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attention_bias (`bool`, *optional*): |
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Configure if the `TransformerBlocks` attention should contain a bias parameter. |
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""" |
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_supports_gradient_checkpointing = True |
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@register_to_config |
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def __init__( |
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self, |
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num_attention_heads: int = 16, |
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attention_head_dim: int = 88, |
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in_channels: Optional[int] = None, |
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out_channels: Optional[int] = None, |
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num_layers: int = 1, |
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dropout: float = 0.0, |
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norm_num_groups: int = 32, |
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cross_attention_dim: Optional[int] = None, |
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attention_bias: bool = False, |
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sample_size: Optional[int] = None, |
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num_vector_embeds: Optional[int] = None, |
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patch_size: Optional[int] = None, |
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activation_fn: str = "geglu", |
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num_embeds_ada_norm: Optional[int] = None, |
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use_linear_projection: bool = False, |
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only_cross_attention: bool = False, |
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double_self_attention: bool = False, |
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upcast_attention: bool = False, |
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norm_type: str = "layer_norm", |
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norm_elementwise_affine: bool = True, |
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norm_eps: float = 1e-5, |
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attention_type: str = "default", |
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caption_channels: int = None, |
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): |
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super().__init__() |
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self.use_linear_projection = use_linear_projection |
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self.num_attention_heads = num_attention_heads |
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self.attention_head_dim = attention_head_dim |
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inner_dim = num_attention_heads * attention_head_dim |
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conv_cls = nn.Conv2d if USE_PEFT_BACKEND else LoRACompatibleConv |
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linear_cls = nn.Linear if USE_PEFT_BACKEND else LoRACompatibleLinear |
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self.is_input_continuous = (in_channels is not None) and (patch_size is None) |
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self.is_input_vectorized = num_vector_embeds is not None |
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self.is_input_patches = in_channels is not None and patch_size is not None |
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if norm_type == "layer_norm" and num_embeds_ada_norm is not None: |
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deprecation_message = ( |
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f"The configuration file of this model: {self.__class__} is outdated. `norm_type` is either not set or" |
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" incorrectly set to `'layer_norm'`.Make sure to set `norm_type` to `'ada_norm'` in the config." |
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" Please make sure to update the config accordingly as leaving `norm_type` might led to incorrect" |
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" results in future versions. If you have downloaded this checkpoint from the Hugging Face Hub, it" |
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" would be very nice if you could open a Pull request for the `transformer/config.json` file" |
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) |
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deprecate( |
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"norm_type!=num_embeds_ada_norm", |
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"1.0.0", |
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deprecation_message, |
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standard_warn=False, |
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) |
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norm_type = "ada_norm" |
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if self.is_input_continuous and self.is_input_vectorized: |
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raise ValueError( |
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f"Cannot define both `in_channels`: {in_channels} and `num_vector_embeds`: {num_vector_embeds}. Make" |
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" sure that either `in_channels` or `num_vector_embeds` is None." |
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) |
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elif self.is_input_vectorized and self.is_input_patches: |
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raise ValueError( |
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f"Cannot define both `num_vector_embeds`: {num_vector_embeds} and `patch_size`: {patch_size}. Make" |
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" sure that either `num_vector_embeds` or `num_patches` is None." |
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) |
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elif ( |
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not self.is_input_continuous |
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and not self.is_input_vectorized |
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and not self.is_input_patches |
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): |
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raise ValueError( |
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f"Has to define `in_channels`: {in_channels}, `num_vector_embeds`: {num_vector_embeds}, or patch_size:" |
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f" {patch_size}. Make sure that `in_channels`, `num_vector_embeds` or `num_patches` is not None." |
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) |
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self.in_channels = in_channels |
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self.norm = torch.nn.GroupNorm( |
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num_groups=norm_num_groups, |
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num_channels=in_channels, |
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eps=1e-6, |
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affine=True, |
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) |
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if use_linear_projection: |
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self.proj_in = linear_cls(in_channels, inner_dim) |
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else: |
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self.proj_in = conv_cls( |
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in_channels, inner_dim, kernel_size=1, stride=1, padding=0 |
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) |
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self.transformer_blocks = nn.ModuleList( |
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[ |
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BasicTransformerBlock( |
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inner_dim, |
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num_attention_heads, |
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attention_head_dim, |
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dropout=dropout, |
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cross_attention_dim=cross_attention_dim, |
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activation_fn=activation_fn, |
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num_embeds_ada_norm=num_embeds_ada_norm, |
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attention_bias=attention_bias, |
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only_cross_attention=only_cross_attention, |
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double_self_attention=double_self_attention, |
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upcast_attention=upcast_attention, |
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norm_type=norm_type, |
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norm_elementwise_affine=norm_elementwise_affine, |
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norm_eps=norm_eps, |
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attention_type=attention_type, |
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) |
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for d in range(num_layers) |
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] |
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) |
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self.out_channels = in_channels if out_channels is None else out_channels |
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if use_linear_projection: |
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self.proj_out = linear_cls(inner_dim, in_channels) |
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else: |
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self.proj_out = conv_cls( |
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inner_dim, in_channels, kernel_size=1, stride=1, padding=0 |
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) |
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self.adaln_single = None |
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self.use_additional_conditions = False |
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if norm_type == "ada_norm_single": |
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self.use_additional_conditions = self.config.sample_size == 128 |
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self.adaln_single = AdaLayerNormSingle( |
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inner_dim, use_additional_conditions=self.use_additional_conditions |
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) |
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self.caption_projection = None |
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if caption_channels is not None: |
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self.caption_projection = CaptionProjection( |
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in_features=caption_channels, hidden_size=inner_dim |
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) |
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self.gradient_checkpointing = False |
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def _set_gradient_checkpointing(self, module, value=False): |
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if hasattr(module, "gradient_checkpointing"): |
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module.gradient_checkpointing = value |
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def forward( |
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self, |
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hidden_states: torch.Tensor, |
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encoder_hidden_states: Optional[torch.Tensor] = None, |
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timestep: Optional[torch.LongTensor] = None, |
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added_cond_kwargs: Dict[str, torch.Tensor] = None, |
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class_labels: Optional[torch.LongTensor] = None, |
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cross_attention_kwargs: Dict[str, Any] = None, |
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attention_mask: Optional[torch.Tensor] = None, |
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encoder_attention_mask: Optional[torch.Tensor] = None, |
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return_dict: bool = True, |
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): |
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""" |
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The [`Transformer2DModel`] forward method. |
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Args: |
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hidden_states (`torch.LongTensor` of shape `(batch size, num latent pixels)` if discrete, `torch.FloatTensor` of shape `(batch size, channel, height, width)` if continuous): |
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Input `hidden_states`. |
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encoder_hidden_states ( `torch.FloatTensor` of shape `(batch size, sequence len, embed dims)`, *optional*): |
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Conditional embeddings for cross attention layer. If not given, cross-attention defaults to |
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self-attention. |
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timestep ( `torch.LongTensor`, *optional*): |
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Used to indicate denoising step. Optional timestep to be applied as an embedding in `AdaLayerNorm`. |
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class_labels ( `torch.LongTensor` of shape `(batch size, num classes)`, *optional*): |
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Used to indicate class labels conditioning. Optional class labels to be applied as an embedding in |
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`AdaLayerZeroNorm`. |
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cross_attention_kwargs ( `Dict[str, Any]`, *optional*): |
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A kwargs dictionary that if specified is passed along to the `AttentionProcessor` as defined under |
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`self.processor` in |
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[diffusers.models.attention_processor](https://github.com/huggingface/diffusers/blob/main/src/diffusers/models/attention_processor.py). |
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attention_mask ( `torch.Tensor`, *optional*): |
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An attention mask of shape `(batch, key_tokens)` is applied to `encoder_hidden_states`. If `1` the mask |
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is kept, otherwise if `0` it is discarded. Mask will be converted into a bias, which adds large |
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negative values to the attention scores corresponding to "discard" tokens. |
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encoder_attention_mask ( `torch.Tensor`, *optional*): |
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Cross-attention mask applied to `encoder_hidden_states`. Two formats supported: |
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* Mask `(batch, sequence_length)` True = keep, False = discard. |
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* Bias `(batch, 1, sequence_length)` 0 = keep, -10000 = discard. |
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If `ndim == 2`: will be interpreted as a mask, then converted into a bias consistent with the format |
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above. This bias will be added to the cross-attention scores. |
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return_dict (`bool`, *optional*, defaults to `True`): |
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Whether or not to return a [`~models.unet_2d_condition.UNet2DConditionOutput`] instead of a plain |
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tuple. |
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Returns: |
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If `return_dict` is True, an [`~models.transformer_2d.Transformer2DModelOutput`] is returned, otherwise a |
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`tuple` where the first element is the sample tensor. |
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""" |
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if attention_mask is not None and attention_mask.ndim == 2: |
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attention_mask = (1 - attention_mask.to(hidden_states.dtype)) * -10000.0 |
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attention_mask = attention_mask.unsqueeze(1) |
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if encoder_attention_mask is not None and encoder_attention_mask.ndim == 2: |
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encoder_attention_mask = ( |
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1 - encoder_attention_mask.to(hidden_states.dtype) |
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) * -10000.0 |
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encoder_attention_mask = encoder_attention_mask.unsqueeze(1) |
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lora_scale = ( |
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cross_attention_kwargs.get("scale", 1.0) |
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if cross_attention_kwargs is not None |
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else 1.0 |
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) |
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batch, _, height, width = hidden_states.shape |
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residual = hidden_states |
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hidden_states = self.norm(hidden_states) |
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if not self.use_linear_projection: |
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hidden_states = ( |
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self.proj_in(hidden_states, scale=lora_scale) |
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if not USE_PEFT_BACKEND |
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else self.proj_in(hidden_states) |
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) |
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inner_dim = hidden_states.shape[1] |
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hidden_states = hidden_states.permute(0, 2, 3, 1).reshape( |
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batch, height * width, inner_dim |
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) |
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else: |
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inner_dim = hidden_states.shape[1] |
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hidden_states = hidden_states.permute(0, 2, 3, 1).reshape( |
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batch, height * width, inner_dim |
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) |
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hidden_states = ( |
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self.proj_in(hidden_states, scale=lora_scale) |
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if not USE_PEFT_BACKEND |
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else self.proj_in(hidden_states) |
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) |
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if self.caption_projection is not None: |
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batch_size = hidden_states.shape[0] |
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encoder_hidden_states = self.caption_projection(encoder_hidden_states) |
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encoder_hidden_states = encoder_hidden_states.view( |
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batch_size, -1, hidden_states.shape[-1] |
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) |
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ref_feature = hidden_states.reshape(batch, height, width, inner_dim) |
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for block in self.transformer_blocks: |
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if self.training and self.gradient_checkpointing: |
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def create_custom_forward(module, return_dict=None): |
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def custom_forward(*inputs): |
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if return_dict is not None: |
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return module(*inputs, return_dict=return_dict) |
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else: |
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return module(*inputs) |
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return custom_forward |
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ckpt_kwargs: Dict[str, Any] = ( |
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{"use_reentrant": False} if is_torch_version(">=", "1.11.0") else {} |
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) |
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hidden_states = torch.utils.checkpoint.checkpoint( |
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create_custom_forward(block), |
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hidden_states, |
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attention_mask, |
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encoder_hidden_states, |
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encoder_attention_mask, |
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timestep, |
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cross_attention_kwargs, |
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class_labels, |
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**ckpt_kwargs, |
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) |
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else: |
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hidden_states = block( |
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hidden_states, |
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attention_mask=attention_mask, |
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encoder_hidden_states=encoder_hidden_states, |
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encoder_attention_mask=encoder_attention_mask, |
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timestep=timestep, |
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cross_attention_kwargs=cross_attention_kwargs, |
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class_labels=class_labels, |
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) |
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if self.is_input_continuous: |
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if not self.use_linear_projection: |
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hidden_states = ( |
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hidden_states.reshape(batch, height, width, inner_dim) |
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.permute(0, 3, 1, 2) |
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.contiguous() |
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) |
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hidden_states = ( |
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self.proj_out(hidden_states, scale=lora_scale) |
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if not USE_PEFT_BACKEND |
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else self.proj_out(hidden_states) |
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) |
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else: |
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hidden_states = ( |
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self.proj_out(hidden_states, scale=lora_scale) |
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if not USE_PEFT_BACKEND |
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else self.proj_out(hidden_states) |
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) |
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hidden_states = ( |
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hidden_states.reshape(batch, height, width, inner_dim) |
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.permute(0, 3, 1, 2) |
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.contiguous() |
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) |
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output = hidden_states + residual |
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if not return_dict: |
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return (output, ref_feature) |
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return Transformer2DModelOutput(sample=output, ref_feature=ref_feature) |
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