mirror of
https://github.com/invoke-ai/InvokeAI
synced 2024-08-30 20:32:17 +00:00
429 lines
18 KiB
Python
429 lines
18 KiB
Python
import traceback
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from dataclasses import dataclass
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from pathlib import Path
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from typing import Optional, Union, List
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import safetensors.torch
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import torch
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from compel.embeddings_provider import BaseTextualInversionManager
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from picklescan.scanner import scan_file_path
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from transformers import CLIPTextModel, CLIPTokenizer
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from .concepts_lib import HuggingFaceConceptsLibrary
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@dataclass
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class EmbeddingInfo:
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name: str
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embedding: torch.Tensor
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num_vectors_per_token: int
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token_dim: int
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trained_steps: int = None
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trained_model_name: str = None
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trained_model_checksum: str = None
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@dataclass
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class TextualInversion:
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trigger_string: str
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embedding: torch.Tensor
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trigger_token_id: Optional[int] = None
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pad_token_ids: Optional[list[int]] = None
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@property
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def embedding_vector_length(self) -> int:
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return self.embedding.shape[0]
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class TextualInversionManager(BaseTextualInversionManager):
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def __init__(
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self,
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tokenizer: CLIPTokenizer,
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text_encoder: CLIPTextModel,
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full_precision: bool = True,
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):
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self.tokenizer = tokenizer
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self.text_encoder = text_encoder
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self.full_precision = full_precision
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self.hf_concepts_library = HuggingFaceConceptsLibrary()
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self.trigger_to_sourcefile = dict()
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default_textual_inversions: list[TextualInversion] = []
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self.textual_inversions = default_textual_inversions
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def load_huggingface_concepts(self, concepts: list[str]):
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for concept_name in concepts:
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if concept_name in self.hf_concepts_library.concepts_loaded:
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continue
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trigger = self.hf_concepts_library.concept_to_trigger(concept_name)
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if (
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self.has_textual_inversion_for_trigger_string(trigger)
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or self.has_textual_inversion_for_trigger_string(concept_name)
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or self.has_textual_inversion_for_trigger_string(f"<{concept_name}>")
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): # in case a token with literal angle brackets encountered
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print(f">> Loaded local embedding for trigger {concept_name}")
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continue
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bin_file = self.hf_concepts_library.get_concept_model_path(concept_name)
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if not bin_file:
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continue
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print(f">> Loaded remote embedding for trigger {concept_name}")
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self.load_textual_inversion(bin_file)
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self.hf_concepts_library.concepts_loaded[concept_name] = True
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def get_all_trigger_strings(self) -> list[str]:
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return [ti.trigger_string for ti in self.textual_inversions]
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def load_textual_inversion(
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self, ckpt_path: Union[str, Path], defer_injecting_tokens: bool = False
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):
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ckpt_path = Path(ckpt_path)
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if not ckpt_path.is_file():
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return
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if str(ckpt_path).endswith(".DS_Store"):
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return
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embedding_list = self._parse_embedding(str(ckpt_path))
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for embedding_info in embedding_list:
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if (self.text_encoder.get_input_embeddings().weight.data[0].shape[0] != embedding_info.token_dim):
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print(
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f" ** Notice: {ckpt_path.parents[0].name}/{ckpt_path.name} was trained on a model with an incompatible token dimension: {self.text_encoder.get_input_embeddings().weight.data[0].shape[0]} vs {embedding_info.token_dim}."
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)
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continue
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# Resolve the situation in which an earlier embedding has claimed the same
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# trigger string. We replace the trigger with '<source_file>', as we used to.
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trigger_str = embedding_info.name
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sourcefile = (
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f"{ckpt_path.parent.name}/{ckpt_path.name}"
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if ckpt_path.name == "learned_embeds.bin"
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else ckpt_path.name
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)
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if trigger_str in self.trigger_to_sourcefile:
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replacement_trigger_str = (
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f"<{ckpt_path.parent.name}>"
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if ckpt_path.name == "learned_embeds.bin"
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else f"<{ckpt_path.stem}>"
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)
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print(
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f">> {sourcefile}: Trigger token '{trigger_str}' is already claimed by '{self.trigger_to_sourcefile[trigger_str]}'. Trigger this concept with {replacement_trigger_str}"
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)
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trigger_str = replacement_trigger_str
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try:
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self._add_textual_inversion(
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trigger_str,
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embedding_info.embedding,
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defer_injecting_tokens=defer_injecting_tokens,
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)
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# remember which source file claims this trigger
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self.trigger_to_sourcefile[trigger_str] = sourcefile
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except ValueError as e:
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print(f' | Ignoring incompatible embedding {embedding_info["name"]}')
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print(f" | The error was {str(e)}")
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def _add_textual_inversion(
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self, trigger_str, embedding, defer_injecting_tokens=False
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) -> Optional[TextualInversion]:
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"""
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Add a textual inversion to be recognised.
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:param trigger_str: The trigger text in the prompt that activates this textual inversion. If unknown to the embedder's tokenizer, will be added.
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:param embedding: The actual embedding data that will be inserted into the conditioning at the point where the token_str appears.
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:return: The token id for the added embedding, either existing or newly-added.
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"""
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if trigger_str in [ti.trigger_string for ti in self.textual_inversions]:
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print(
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f"** TextualInversionManager refusing to overwrite already-loaded token '{trigger_str}'"
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)
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return
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if not self.full_precision:
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embedding = embedding.half()
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if len(embedding.shape) == 1:
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embedding = embedding.unsqueeze(0)
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elif len(embedding.shape) > 2:
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raise ValueError(
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f"** TextualInversionManager cannot add {trigger_str} because the embedding shape {embedding.shape} is incorrect. The embedding must have shape [token_dim] or [V, token_dim] where V is vector length and token_dim is 768 for SD1 or 1280 for SD2."
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)
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try:
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ti = TextualInversion(trigger_string=trigger_str, embedding=embedding)
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if not defer_injecting_tokens:
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self._inject_tokens_and_assign_embeddings(ti)
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self.textual_inversions.append(ti)
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return ti
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except ValueError as e:
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if str(e).startswith("Warning"):
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print(f">> {str(e)}")
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else:
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traceback.print_exc()
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print(
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f"** TextualInversionManager was unable to add a textual inversion with trigger string {trigger_str}."
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)
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raise
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def _inject_tokens_and_assign_embeddings(self, ti: TextualInversion) -> int:
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if ti.trigger_token_id is not None:
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raise ValueError(
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f"Tokens already injected for textual inversion with trigger '{ti.trigger_string}'"
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)
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trigger_token_id = self._get_or_create_token_id_and_assign_embedding(
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ti.trigger_string, ti.embedding[0]
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)
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if ti.embedding_vector_length > 1:
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# for embeddings with vector length > 1
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pad_token_strings = [
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ti.trigger_string + "-!pad-" + str(pad_index)
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for pad_index in range(1, ti.embedding_vector_length)
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]
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# todo: batched UI for faster loading when vector length >2
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pad_token_ids = [
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self._get_or_create_token_id_and_assign_embedding(
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pad_token_str, ti.embedding[1 + i]
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)
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for (i, pad_token_str) in enumerate(pad_token_strings)
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]
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else:
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pad_token_ids = []
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ti.trigger_token_id = trigger_token_id
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ti.pad_token_ids = pad_token_ids
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return ti.trigger_token_id
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def has_textual_inversion_for_trigger_string(self, trigger_string: str) -> bool:
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try:
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ti = self.get_textual_inversion_for_trigger_string(trigger_string)
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return ti is not None
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except StopIteration:
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return False
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def get_textual_inversion_for_trigger_string(
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self, trigger_string: str
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) -> TextualInversion:
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return next(
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ti for ti in self.textual_inversions if ti.trigger_string == trigger_string
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)
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def get_textual_inversion_for_token_id(self, token_id: int) -> TextualInversion:
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return next(
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ti for ti in self.textual_inversions if ti.trigger_token_id == token_id
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)
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def create_deferred_token_ids_for_any_trigger_terms(
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self, prompt_string: str
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) -> list[int]:
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injected_token_ids = []
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for ti in self.textual_inversions:
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if ti.trigger_token_id is None and ti.trigger_string in prompt_string:
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if ti.embedding_vector_length > 1:
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print(
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f">> Preparing tokens for textual inversion {ti.trigger_string}..."
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)
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try:
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self._inject_tokens_and_assign_embeddings(ti)
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except ValueError as e:
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print(
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f" | Ignoring incompatible embedding trigger {ti.trigger_string}"
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)
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print(f" | The error was {str(e)}")
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continue
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injected_token_ids.append(ti.trigger_token_id)
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injected_token_ids.extend(ti.pad_token_ids)
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return injected_token_ids
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def expand_textual_inversion_token_ids_if_necessary(
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self, prompt_token_ids: list[int]
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) -> list[int]:
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"""
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Insert padding tokens as necessary into the passed-in list of token ids to match any textual inversions it includes.
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:param prompt_token_ids: The prompt as a list of token ids (`int`s). Should not include bos and eos markers.
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:return: The prompt token ids with any necessary padding to account for textual inversions inserted. May be too
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long - caller is responsible for prepending/appending eos and bos token ids, and truncating if necessary.
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"""
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if len(prompt_token_ids) == 0:
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return prompt_token_ids
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if prompt_token_ids[0] == self.tokenizer.bos_token_id:
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raise ValueError("prompt_token_ids must not start with bos_token_id")
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if prompt_token_ids[-1] == self.tokenizer.eos_token_id:
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raise ValueError("prompt_token_ids must not end with eos_token_id")
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textual_inversion_trigger_token_ids = [
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ti.trigger_token_id for ti in self.textual_inversions
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]
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prompt_token_ids = prompt_token_ids.copy()
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for i, token_id in reversed(list(enumerate(prompt_token_ids))):
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if token_id in textual_inversion_trigger_token_ids:
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textual_inversion = next(
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ti
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for ti in self.textual_inversions
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if ti.trigger_token_id == token_id
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)
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for pad_idx in range(0, textual_inversion.embedding_vector_length - 1):
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prompt_token_ids.insert(
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i + pad_idx + 1, textual_inversion.pad_token_ids[pad_idx]
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)
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return prompt_token_ids
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def _get_or_create_token_id_and_assign_embedding(
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self, token_str: str, embedding: torch.Tensor
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) -> int:
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if len(embedding.shape) != 1:
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raise ValueError(
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"Embedding has incorrect shape - must be [token_dim] where token_dim is 768 for SD1 or 1280 for SD2"
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)
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existing_token_id = self.tokenizer.convert_tokens_to_ids(token_str)
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if existing_token_id == self.tokenizer.unk_token_id:
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num_tokens_added = self.tokenizer.add_tokens(token_str)
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current_embeddings = self.text_encoder.resize_token_embeddings(None)
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current_token_count = current_embeddings.num_embeddings
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new_token_count = current_token_count + num_tokens_added
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# the following call is slow - todo make batched for better performance with vector length >1
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self.text_encoder.resize_token_embeddings(new_token_count)
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token_id = self.tokenizer.convert_tokens_to_ids(token_str)
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if token_id == self.tokenizer.unk_token_id:
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raise RuntimeError(f"Unable to find token id for token '{token_str}'")
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if (
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self.text_encoder.get_input_embeddings().weight.data[token_id].shape
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!= embedding.shape
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):
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raise ValueError(
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f"Warning. Cannot load embedding for {token_str}. It was trained on a model with token dimension {embedding.shape[0]}, but the current model has token dimension {self.text_encoder.get_input_embeddings().weight.data[token_id].shape[0]}."
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)
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self.text_encoder.get_input_embeddings().weight.data[token_id] = embedding
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return token_id
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def _parse_embedding(self, embedding_file: str)->List[EmbeddingInfo]:
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suffix = Path(embedding_file).suffix
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try:
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if suffix in [".pt",".ckpt",".bin"]:
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scan_result = scan_file_path(embedding_file)
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if scan_result.infected_files > 0:
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print(
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f" ** Security Issues Found in Model: {scan_result.issues_count}"
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)
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print(" ** For your safety, InvokeAI will not load this embed.")
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return list()
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ckpt = torch.load(embedding_file,map_location="cpu")
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else:
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ckpt = safetensors.torch.load_file(embedding_file)
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except Exception as e:
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print(f" ** Notice: unrecognized embedding file format: {embedding_file}: {e}")
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return list()
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# try to figure out what kind of embedding file it is and parse accordingly
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keys = list(ckpt.keys())
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if all(x in keys for x in ['string_to_token','string_to_param','name','step']):
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return self._parse_embedding_v1(ckpt, embedding_file) # example rem_rezero.pt
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elif all(x in keys for x in ['string_to_token','string_to_param']):
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return self._parse_embedding_v2(ckpt, embedding_file) # example midj-strong.pt
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elif 'emb_params' in keys:
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return self._parse_embedding_v3(ckpt, embedding_file) # example easynegative.safetensors
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else:
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return self._parse_embedding_v4(ckpt, embedding_file) # usually a '.bin' file
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def _parse_embedding_v1(self, embedding_ckpt: dict, file_path: str)->List[EmbeddingInfo]:
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basename = Path(file_path).stem
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print(f' | Loading v1 embedding file: {basename}')
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embeddings = list()
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token_counter = -1
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for token,embedding in embedding_ckpt["string_to_param"].items():
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if token_counter < 0:
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trigger = embedding_ckpt["name"]
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elif token_counter == 0:
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trigger = f'<basename>'
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else:
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trigger = f'<{basename}-{int(token_counter:=token_counter)}>'
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token_counter += 1
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embedding_info = EmbeddingInfo(
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name = trigger,
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embedding = embedding,
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num_vectors_per_token = embedding.size()[0],
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token_dim = embedding.size()[1],
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trained_steps = embedding_ckpt["step"],
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trained_model_name = embedding_ckpt["sd_checkpoint_name"],
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trained_model_checksum = embedding_ckpt["sd_checkpoint"]
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)
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embeddings.append(embedding_info)
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return embeddings
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def _parse_embedding_v2 (
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self, embedding_ckpt: dict, file_path: str
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) -> List[EmbeddingInfo]:
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"""
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This handles embedding .pt file variant #2.
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"""
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basename = Path(file_path).stem
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print(f' | Loading v2 embedding file: {basename}')
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embeddings = list()
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if isinstance(
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list(embedding_ckpt["string_to_token"].values())[0], torch.Tensor
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):
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token_counter = 0
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for token,embedding in embedding_ckpt["string_to_param"].items():
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trigger = token if token != '*' \
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else f'<{basename}>' if token_counter == 0 \
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else f'<{basename}-{int(token_counter:=token_counter+1)}>'
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embedding_info = EmbeddingInfo(
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name = trigger,
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embedding = embedding,
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num_vectors_per_token = embedding.size()[0],
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token_dim = embedding.size()[1],
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)
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embeddings.append(embedding_info)
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else:
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print(f" ** {basename}: Unrecognized embedding format")
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return embeddings
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def _parse_embedding_v3(self, embedding_ckpt: dict, file_path: str)->List[EmbeddingInfo]:
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"""
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Parse 'version 3' of the .pt textual inversion embedding files.
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"""
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basename = Path(file_path).stem
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print(f' | Loading v3 embedding file: {basename}')
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embedding = embedding_ckpt['emb_params']
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embedding_info = EmbeddingInfo(
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name = f'<{basename}>',
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embedding = embedding,
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num_vectors_per_token = embedding.size()[0],
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token_dim = embedding.size()[1],
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)
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return [embedding_info]
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def _parse_embedding_v4(self, embedding_ckpt: dict, filepath: str)->List[EmbeddingInfo]:
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"""
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Parse 'version 4' of the textual inversion embedding files. This one
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is usually associated with .bin files trained by HuggingFace diffusers.
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"""
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basename = Path(filepath).stem
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short_path = Path(filepath).parents[0].name+'/'+Path(filepath).name
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print(f' | Loading v4 embedding file: {short_path}')
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embeddings = list()
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if list(embedding_ckpt.keys()) == 0:
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print(f" ** Invalid embeddings file: {short_path}")
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else:
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for token,embedding in embedding_ckpt.items():
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embedding_info = EmbeddingInfo(
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name = token or f"<{basename}>",
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embedding = embedding,
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num_vectors_per_token = 1, # All Concepts seem to default to 1
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token_dim = embedding.size()[0],
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)
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embeddings.append(embedding_info)
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return embeddings
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