PowerPaint-V1-stable-diffusion-inpainting / power_paint_tokenizer.py
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import torch
import torch.nn as nn
import copy
import random
from typing import Any, List, Optional, Union
from transformers import CLIPTokenizer
class PowerPaintTokenizer:
def __init__(self, tokenizer: CLIPTokenizer):
self.wrapped = tokenizer
self.token_map = {}
placeholder_tokens = ["P_ctxt", "P_shape", "P_obj"]
num_vec_per_token = 10
for placeholder_token in placeholder_tokens:
output = []
for i in range(num_vec_per_token):
ith_token = placeholder_token + f"_{i}"
output.append(ith_token)
self.token_map[placeholder_token] = output
def __getattr__(self, name: str) -> Any:
if name == "wrapped":
return super().__getattr__("wrapped")
try:
return getattr(self.wrapped, name)
except AttributeError:
try:
return super().__getattr__(name)
except AttributeError:
raise AttributeError(
"'name' cannot be found in both "
f"'{self.__class__.__name__}' and "
f"'{self.__class__.__name__}.tokenizer'."
)
def try_adding_tokens(self, tokens: Union[str, List[str]], *args, **kwargs):
"""Attempt to add tokens to the tokenizer.
Args:
tokens (Union[str, List[str]]): The tokens to be added.
"""
num_added_tokens = self.wrapped.add_tokens(tokens, *args, **kwargs)
assert num_added_tokens != 0, (
f"The tokenizer already contains the token {tokens}. Please pass "
"a different `placeholder_token` that is not already in the "
"tokenizer."
)
def get_token_info(self, token: str) -> dict:
"""Get the information of a token, including its start and end index in
the current tokenizer.
Args:
token (str): The token to be queried.
Returns:
dict: The information of the token, including its start and end
index in current tokenizer.
"""
token_ids = self.__call__(token).input_ids
start, end = token_ids[1], token_ids[-2] + 1
return {"name": token, "start": start, "end": end}
def add_placeholder_token(
self, placeholder_token: str, *args, num_vec_per_token: int = 1, **kwargs
):
"""Add placeholder tokens to the tokenizer.
Args:
placeholder_token (str): The placeholder token to be added.
num_vec_per_token (int, optional): The number of vectors of
the added placeholder token.
*args, **kwargs: The arguments for `self.wrapped.add_tokens`.
"""
output = []
if num_vec_per_token == 1:
self.try_adding_tokens(placeholder_token, *args, **kwargs)
output.append(placeholder_token)
else:
output = []
for i in range(num_vec_per_token):
ith_token = placeholder_token + f"_{i}"
self.try_adding_tokens(ith_token, *args, **kwargs)
output.append(ith_token)
for token in self.token_map:
if token in placeholder_token:
raise ValueError(
f"The tokenizer already has placeholder token {token} "
f"that can get confused with {placeholder_token} "
"keep placeholder tokens independent"
)
self.token_map[placeholder_token] = output
def replace_placeholder_tokens_in_text(
self,
text: Union[str, List[str]],
vector_shuffle: bool = False,
prop_tokens_to_load: float = 1.0,
) -> Union[str, List[str]]:
"""Replace the keywords in text with placeholder tokens. This function
will be called in `self.__call__` and `self.encode`.
Args:
text (Union[str, List[str]]): The text to be processed.
vector_shuffle (bool, optional): Whether to shuffle the vectors.
Defaults to False.
prop_tokens_to_load (float, optional): The proportion of tokens to
be loaded. If 1.0, all tokens will be loaded. Defaults to 1.0.
Returns:
Union[str, List[str]]: The processed text.
"""
if isinstance(text, list):
output = []
for i in range(len(text)):
output.append(
self.replace_placeholder_tokens_in_text(
text[i], vector_shuffle=vector_shuffle
)
)
return output
for placeholder_token in self.token_map:
if placeholder_token in text:
tokens = self.token_map[placeholder_token]
tokens = tokens[: 1 + int(len(tokens) * prop_tokens_to_load)]
if vector_shuffle:
tokens = copy.copy(tokens)
random.shuffle(tokens)
text = text.replace(placeholder_token, " ".join(tokens))
return text
def replace_text_with_placeholder_tokens(
self, text: Union[str, List[str]]
) -> Union[str, List[str]]:
"""Replace the placeholder tokens in text with the original keywords.
This function will be called in `self.decode`.
Args:
text (Union[str, List[str]]): The text to be processed.
Returns:
Union[str, List[str]]: The processed text.
"""
if isinstance(text, list):
output = []
for i in range(len(text)):
output.append(self.replace_text_with_placeholder_tokens(text[i]))
return output
for placeholder_token, tokens in self.token_map.items():
merged_tokens = " ".join(tokens)
if merged_tokens in text:
text = text.replace(merged_tokens, placeholder_token)
return text
def __call__(
self,
text: Union[str, List[str]],
*args,
vector_shuffle: bool = False,
prop_tokens_to_load: float = 1.0,
**kwargs,
):
"""The call function of the wrapper.
Args:
text (Union[str, List[str]]): The text to be tokenized.
vector_shuffle (bool, optional): Whether to shuffle the vectors.
Defaults to False.
prop_tokens_to_load (float, optional): The proportion of tokens to
be loaded. If 1.0, all tokens will be loaded. Defaults to 1.0
*args, **kwargs: The arguments for `self.wrapped.__call__`.
"""
replaced_text = self.replace_placeholder_tokens_in_text(
text, vector_shuffle=vector_shuffle, prop_tokens_to_load=prop_tokens_to_load
)
return self.wrapped.__call__(replaced_text, *args, **kwargs)
def encode(self, text: Union[str, List[str]], *args, **kwargs):
"""Encode the passed text to token index.
Args:
text (Union[str, List[str]]): The text to be encode.
*args, **kwargs: The arguments for `self.wrapped.__call__`.
"""
replaced_text = self.replace_placeholder_tokens_in_text(text)
return self.wrapped(replaced_text, *args, **kwargs)
def decode(
self, token_ids, return_raw: bool = False, *args, **kwargs
) -> Union[str, List[str]]:
"""Decode the token index to text.
Args:
token_ids: The token index to be decoded.
return_raw: Whether keep the placeholder token in the text.
Defaults to False.
*args, **kwargs: The arguments for `self.wrapped.decode`.
Returns:
Union[str, List[str]]: The decoded text.
"""
text = self.wrapped.decode(token_ids, *args, **kwargs)
if return_raw:
return text
replaced_text = self.replace_text_with_placeholder_tokens(text)
return replaced_text
class EmbeddingLayerWithFixes(nn.Module):
"""The revised embedding layer to support external embeddings. This design
of this class is inspired by https://github.com/AUTOMATIC1111/stable-
diffusion-webui/blob/22bcc7be428c94e9408f589966c2040187245d81/modules/sd_hi
jack.py#L224 # noqa.
Args:
wrapped (nn.Emebdding): The embedding layer to be wrapped.
external_embeddings (Union[dict, List[dict]], optional): The external
embeddings added to this layer. Defaults to None.
"""
def __init__(
self,
wrapped: nn.Embedding,
external_embeddings: Optional[Union[dict, List[dict]]] = None,
):
super().__init__()
self.wrapped = wrapped
self.num_embeddings = wrapped.weight.shape[0]
self.external_embeddings = []
if external_embeddings:
self.add_embeddings(external_embeddings)
self.trainable_embeddings = nn.ParameterDict()
@property
def weight(self):
"""Get the weight of wrapped embedding layer."""
return self.wrapped.weight
def check_duplicate_names(self, embeddings: List[dict]):
"""Check whether duplicate names exist in list of 'external
embeddings'.
Args:
embeddings (List[dict]): A list of embedding to be check.
"""
names = [emb["name"] for emb in embeddings]
assert len(names) == len(set(names)), (
"Found duplicated names in 'external_embeddings'. Name list: " f"'{names}'"
)
def check_ids_overlap(self, embeddings):
"""Check whether overlap exist in token ids of 'external_embeddings'.
Args:
embeddings (List[dict]): A list of embedding to be check.
"""
ids_range = [[emb["start"], emb["end"], emb["name"]] for emb in embeddings]
ids_range.sort() # sort by 'start'
# check if 'end' has overlapping
for idx in range(len(ids_range) - 1):
name1, name2 = ids_range[idx][-1], ids_range[idx + 1][-1]
assert ids_range[idx][1] <= ids_range[idx + 1][0], (
f"Found ids overlapping between embeddings '{name1}' " f"and '{name2}'."
)
def add_embeddings(self, embeddings: Optional[Union[dict, List[dict]]]):
"""Add external embeddings to this layer.
Use case:
>>> 1. Add token to tokenizer and get the token id.
>>> tokenizer = TokenizerWrapper('openai/clip-vit-base-patch32')
>>> # 'how much' in kiswahili
>>> tokenizer.add_placeholder_tokens('ngapi', num_vec_per_token=4)
>>>
>>> 2. Add external embeddings to the model.
>>> new_embedding = {
>>> 'name': 'ngapi', # 'how much' in kiswahili
>>> 'embedding': torch.ones(1, 15) * 4,
>>> 'start': tokenizer.get_token_info('kwaheri')['start'],
>>> 'end': tokenizer.get_token_info('kwaheri')['end'],
>>> 'trainable': False # if True, will registry as a parameter
>>> }
>>> embedding_layer = nn.Embedding(10, 15)
>>> embedding_layer_wrapper = EmbeddingLayerWithFixes(embedding_layer)
>>> embedding_layer_wrapper.add_embeddings(new_embedding)
>>>
>>> 3. Forward tokenizer and embedding layer!
>>> input_text = ['hello, ngapi!', 'hello my friend, ngapi?']
>>> input_ids = tokenizer(
>>> input_text, padding='max_length', truncation=True,
>>> return_tensors='pt')['input_ids']
>>> out_feat = embedding_layer_wrapper(input_ids)
>>>
>>> 4. Let's validate the result!
>>> assert (out_feat[0, 3: 7] == 2.3).all()
>>> assert (out_feat[2, 5: 9] == 2.3).all()
Args:
embeddings (Union[dict, list[dict]]): The external embeddings to
be added. Each dict must contain the following 4 fields: 'name'
(the name of this embedding), 'embedding' (the embedding
tensor), 'start' (the start token id of this embedding), 'end'
(the end token id of this embedding). For example:
`{name: NAME, start: START, end: END, embedding: torch.Tensor}`
"""
if isinstance(embeddings, dict):
embeddings = [embeddings]
self.external_embeddings += embeddings
self.check_duplicate_names(self.external_embeddings)
self.check_ids_overlap(self.external_embeddings)
# set for trainable
added_trainable_emb_info = []
for embedding in embeddings:
trainable = embedding.get("trainable", False)
if trainable:
name = embedding["name"]
embedding["embedding"] = torch.nn.Parameter(embedding["embedding"])
self.trainable_embeddings[name] = embedding["embedding"]
added_trainable_emb_info.append(name)
added_emb_info = [emb["name"] for emb in embeddings]
added_emb_info = ", ".join(added_emb_info)
print(f"Successfully add external embeddings: {added_emb_info}.", "current")
if added_trainable_emb_info:
added_trainable_emb_info = ", ".join(added_trainable_emb_info)
print(
"Successfully add trainable external embeddings: "
f"{added_trainable_emb_info}",
"current",
)
def replace_input_ids(self, input_ids: torch.Tensor) -> torch.Tensor:
"""Replace external input ids to 0.
Args:
input_ids (torch.Tensor): The input ids to be replaced.
Returns:
torch.Tensor: The replaced input ids.
"""
input_ids_fwd = input_ids.clone()
input_ids_fwd[input_ids_fwd >= self.num_embeddings] = 0
return input_ids_fwd
def replace_embeddings(
self, input_ids: torch.Tensor, embedding: torch.Tensor, external_embedding: dict
) -> torch.Tensor:
"""Replace external embedding to the embedding layer. Noted that, in
this function we use `torch.cat` to avoid inplace modification.
Args:
input_ids (torch.Tensor): The original token ids. Shape like
[LENGTH, ].
embedding (torch.Tensor): The embedding of token ids after
`replace_input_ids` function.
external_embedding (dict): The external embedding to be replaced.
Returns:
torch.Tensor: The replaced embedding.
"""
new_embedding = []
name = external_embedding["name"]
start = external_embedding["start"]
end = external_embedding["end"]
target_ids_to_replace = [i for i in range(start, end)]
ext_emb = external_embedding["embedding"]
# do not need to replace
if not (input_ids == start).any():
return embedding
# start replace
s_idx, e_idx = 0, 0
while e_idx < len(input_ids):
if input_ids[e_idx] == start:
if e_idx != 0:
# add embedding do not need to replace
new_embedding.append(embedding[s_idx:e_idx])
# check if the next embedding need to replace is valid
actually_ids_to_replace = [
int(i) for i in input_ids[e_idx : e_idx + end - start]
]
assert actually_ids_to_replace == target_ids_to_replace, (
f"Invalid 'input_ids' in position: {s_idx} to {e_idx}. "
f"Expect '{target_ids_to_replace}' for embedding "
f"'{name}' but found '{actually_ids_to_replace}'."
)
new_embedding.append(ext_emb)
s_idx = e_idx + end - start
e_idx = s_idx + 1
else:
e_idx += 1
if e_idx == len(input_ids):
new_embedding.append(embedding[s_idx:e_idx])
return torch.cat(new_embedding, dim=0)
def forward(
self, input_ids: torch.Tensor, external_embeddings: Optional[List[dict]] = None
):
"""The forward function.
Args:
input_ids (torch.Tensor): The token ids shape like [bz, LENGTH] or
[LENGTH, ].
external_embeddings (Optional[List[dict]]): The external
embeddings. If not passed, only `self.external_embeddings`
will be used. Defaults to None.
input_ids: shape like [bz, LENGTH] or [LENGTH].
"""
assert input_ids.ndim in [1, 2]
if input_ids.ndim == 1:
input_ids = input_ids.unsqueeze(0)
if external_embeddings is None and not self.external_embeddings:
return self.wrapped(input_ids)
input_ids_fwd = self.replace_input_ids(input_ids)
inputs_embeds = self.wrapped(input_ids_fwd)
vecs = []
if external_embeddings is None:
external_embeddings = []
elif isinstance(external_embeddings, dict):
external_embeddings = [external_embeddings]
embeddings = self.external_embeddings + external_embeddings
for input_id, embedding in zip(input_ids, inputs_embeds):
new_embedding = embedding
for external_embedding in embeddings:
new_embedding = self.replace_embeddings(
input_id, new_embedding, external_embedding
)
vecs.append(new_embedding)
return torch.stack(vecs)
def add_tokens(
tokenizer,
text_encoder,
placeholder_tokens: list,
initialize_tokens: list = None,
num_vectors_per_token: int = 1,
):
"""Add token for training.
# TODO: support add tokens as dict, then we can load pretrained tokens.
"""
if initialize_tokens is not None:
assert len(initialize_tokens) == len(
placeholder_tokens
), "placeholder_token should be the same length as initialize_token"
for ii in range(len(placeholder_tokens)):
tokenizer.add_placeholder_token(
placeholder_tokens[ii], num_vec_per_token=num_vectors_per_token
)
# text_encoder.set_embedding_layer()
embedding_layer = text_encoder.text_model.embeddings.token_embedding
text_encoder.text_model.embeddings.token_embedding = EmbeddingLayerWithFixes(
embedding_layer
)
embedding_layer = text_encoder.text_model.embeddings.token_embedding
assert embedding_layer is not None, (
"Do not support get embedding layer for current text encoder. "
"Please check your configuration."
)
initialize_embedding = []
if initialize_tokens is not None:
for ii in range(len(placeholder_tokens)):
init_id = tokenizer(initialize_tokens[ii]).input_ids[1]
temp_embedding = embedding_layer.weight[init_id]
initialize_embedding.append(
temp_embedding[None, ...].repeat(num_vectors_per_token, 1)
)
else:
for ii in range(len(placeholder_tokens)):
init_id = tokenizer("a").input_ids[1]
temp_embedding = embedding_layer.weight[init_id]
len_emb = temp_embedding.shape[0]
init_weight = (torch.rand(num_vectors_per_token, len_emb) - 0.5) / 2.0
initialize_embedding.append(init_weight)
# initialize_embedding = torch.cat(initialize_embedding,dim=0)
token_info_all = []
for ii in range(len(placeholder_tokens)):
token_info = tokenizer.get_token_info(placeholder_tokens[ii])
token_info["embedding"] = initialize_embedding[ii]
token_info["trainable"] = True
token_info_all.append(token_info)
embedding_layer.add_embeddings(token_info_all)