InvokeAI/invokeai/backend/model_patcher.py
2024-07-30 03:39:01 +03:00

479 lines
19 KiB
Python

# Copyright (c) 2024 Ryan Dick, Lincoln D. Stein, and the InvokeAI Development Team
"""These classes implement model patching with LoRAs and Textual Inversions."""
from __future__ import annotations
import pickle
from contextlib import contextmanager
from typing import Any, Dict, Generator, Iterator, List, Optional, Tuple, Type, Union
import numpy as np
import torch
from diffusers import OnnxRuntimeModel, UNet2DConditionModel
from transformers import CLIPTextModel, CLIPTextModelWithProjection, CLIPTokenizer
from invokeai.app.shared.models import FreeUConfig
from invokeai.backend.lora import LoRAModelRaw
from invokeai.backend.model_manager import AnyModel
from invokeai.backend.model_manager.load.optimizations import skip_torch_weight_init
from invokeai.backend.onnx.onnx_runtime import IAIOnnxRuntimeModel
from invokeai.backend.stable_diffusion.extensions.lora import LoRAExt
from invokeai.backend.textual_inversion import TextualInversionManager, TextualInversionModelRaw
from invokeai.backend.util.original_weights_storage import OriginalWeightsStorage
"""
loras = [
(lora_model1, 0.7),
(lora_model2, 0.4),
]
with LoRAHelper.apply_lora_unet(unet, loras):
# unet with applied loras
# unmodified unet
"""
class ModelPatcher:
@staticmethod
@contextmanager
def patch_unet_attention_processor(unet: UNet2DConditionModel, processor_cls: Type[Any]):
"""A context manager that patches `unet` with the provided attention processor.
Args:
unet (UNet2DConditionModel): The UNet model to patch.
processor (Type[Any]): Class which will be initialized for each key and passed to set_attn_processor(...).
"""
unet_orig_processors = unet.attn_processors
# create separate instance for each attention, to be able modify each attention separately
unet_new_processors = {key: processor_cls() for key in unet_orig_processors.keys()}
try:
unet.set_attn_processor(unet_new_processors)
yield None
finally:
unet.set_attn_processor(unet_orig_processors)
@staticmethod
def _resolve_lora_key(model: torch.nn.Module, lora_key: str, prefix: str) -> Tuple[str, torch.nn.Module]:
assert "." not in lora_key
if not lora_key.startswith(prefix):
raise Exception(f"lora_key with invalid prefix: {lora_key}, {prefix}")
module = model
module_key = ""
key_parts = lora_key[len(prefix) :].split("_")
submodule_name = key_parts.pop(0)
while len(key_parts) > 0:
try:
module = module.get_submodule(submodule_name)
module_key += "." + submodule_name
submodule_name = key_parts.pop(0)
except Exception:
submodule_name += "_" + key_parts.pop(0)
module = module.get_submodule(submodule_name)
module_key = (module_key + "." + submodule_name).lstrip(".")
return (module_key, module)
@classmethod
@contextmanager
def apply_lora_unet(
cls,
unet: UNet2DConditionModel,
loras: Iterator[Tuple[LoRAModelRaw, float]],
cached_weights: Optional[Dict[str, torch.Tensor]] = None,
) -> Generator[None, None, None]:
with cls.apply_lora(
unet,
loras=loras,
prefix="lora_unet_",
cached_weights=cached_weights,
):
yield
@classmethod
@contextmanager
def apply_lora_text_encoder(
cls,
text_encoder: CLIPTextModel,
loras: Iterator[Tuple[LoRAModelRaw, float]],
cached_weights: Optional[Dict[str, torch.Tensor]] = None,
) -> Generator[None, None, None]:
with cls.apply_lora(text_encoder, loras=loras, prefix="lora_te_", cached_weights=cached_weights):
yield
@classmethod
@contextmanager
def apply_lora(
cls,
model: AnyModel,
loras: Iterator[Tuple[LoRAModelRaw, float]],
prefix: str,
cached_weights: Optional[Dict[str, torch.Tensor]] = None,
) -> Generator[None, None, None]:
"""
Apply one or more LoRAs to a model.
:param model: The model to patch.
:param loras: An iterator that returns the LoRA to patch in and its patch weight.
:param prefix: A string prefix that precedes keys used in the LoRAs weight layers.
:cached_weights: Read-only copy of the model's state dict in CPU, for unpatching purposes.
"""
original_weights = OriginalWeightsStorage(cached_weights)
try:
for lora_model, lora_weight in loras:
LoRAExt.patch_model(
model=model,
prefix=prefix,
lora=lora_model,
lora_weight=lora_weight,
original_weights=original_weights,
)
del lora_model
yield
finally:
with torch.no_grad():
for param_key, weight in original_weights.get_changed_weights():
model.get_parameter(param_key).copy_(weight)
@classmethod
@contextmanager
def apply_ti(
cls,
tokenizer: CLIPTokenizer,
text_encoder: Union[CLIPTextModel, CLIPTextModelWithProjection],
ti_list: List[Tuple[str, TextualInversionModelRaw]],
) -> Iterator[Tuple[CLIPTokenizer, TextualInversionManager]]:
init_tokens_count = None
new_tokens_added = None
# TODO: This is required since Transformers 4.32 see
# https://github.com/huggingface/transformers/pull/25088
# More information by NVIDIA:
# https://docs.nvidia.com/deeplearning/performance/dl-performance-matrix-multiplication/index.html#requirements-tc
# This value might need to be changed in the future and take the GPUs model into account as there seem
# to be ideal values for different GPUS. This value is temporary!
# For references to the current discussion please see https://github.com/invoke-ai/InvokeAI/pull/4817
pad_to_multiple_of = 8
try:
# HACK: The CLIPTokenizer API does not include a way to remove tokens after calling add_tokens(...). As a
# workaround, we create a full copy of `tokenizer` so that its original behavior can be restored after
# exiting this `apply_ti(...)` context manager.
#
# In a previous implementation, the deep copy was obtained with `ti_tokenizer = copy.deepcopy(tokenizer)`,
# but a pickle roundtrip was found to be much faster (1 sec vs. 0.05 secs).
ti_tokenizer = pickle.loads(pickle.dumps(tokenizer))
ti_manager = TextualInversionManager(ti_tokenizer)
init_tokens_count = text_encoder.resize_token_embeddings(None, pad_to_multiple_of).num_embeddings
def _get_trigger(ti_name: str, index: int) -> str:
trigger = ti_name
if index > 0:
trigger += f"-!pad-{i}"
return f"<{trigger}>"
def _get_ti_embedding(model_embeddings: torch.nn.Module, ti: TextualInversionModelRaw) -> torch.Tensor:
# for SDXL models, select the embedding that matches the text encoder's dimensions
if ti.embedding_2 is not None:
return (
ti.embedding_2
if ti.embedding_2.shape[1] == model_embeddings.weight.data[0].shape[0]
else ti.embedding
)
else:
return ti.embedding
# modify tokenizer
new_tokens_added = 0
for ti_name, ti in ti_list:
ti_embedding = _get_ti_embedding(text_encoder.get_input_embeddings(), ti)
for i in range(ti_embedding.shape[0]):
new_tokens_added += ti_tokenizer.add_tokens(_get_trigger(ti_name, i))
# Modify text_encoder.
# resize_token_embeddings(...) constructs a new torch.nn.Embedding internally. Initializing the weights of
# this embedding is slow and unnecessary, so we wrap this step in skip_torch_weight_init() to save some
# time.
with skip_torch_weight_init():
text_encoder.resize_token_embeddings(init_tokens_count + new_tokens_added, pad_to_multiple_of)
model_embeddings = text_encoder.get_input_embeddings()
for ti_name, ti in ti_list:
assert isinstance(ti, TextualInversionModelRaw)
ti_embedding = _get_ti_embedding(text_encoder.get_input_embeddings(), ti)
ti_tokens = []
for i in range(ti_embedding.shape[0]):
embedding = ti_embedding[i]
trigger = _get_trigger(ti_name, i)
token_id = ti_tokenizer.convert_tokens_to_ids(trigger)
if token_id == ti_tokenizer.unk_token_id:
raise RuntimeError(f"Unable to find token id for token '{trigger}'")
if model_embeddings.weight.data[token_id].shape != embedding.shape:
raise ValueError(
f"Cannot load embedding for {trigger}. It was trained on a model with token dimension"
f" {embedding.shape[0]}, but the current model has token dimension"
f" {model_embeddings.weight.data[token_id].shape[0]}."
)
model_embeddings.weight.data[token_id] = embedding.to(
device=text_encoder.device, dtype=text_encoder.dtype
)
ti_tokens.append(token_id)
if len(ti_tokens) > 1:
ti_manager.pad_tokens[ti_tokens[0]] = ti_tokens[1:]
yield ti_tokenizer, ti_manager
finally:
if init_tokens_count and new_tokens_added:
text_encoder.resize_token_embeddings(init_tokens_count, pad_to_multiple_of)
@classmethod
@contextmanager
def apply_clip_skip(
cls,
text_encoder: Union[CLIPTextModel, CLIPTextModelWithProjection],
clip_skip: int,
) -> None:
skipped_layers = []
try:
for _i in range(clip_skip):
skipped_layers.append(text_encoder.text_model.encoder.layers.pop(-1))
yield
finally:
while len(skipped_layers) > 0:
text_encoder.text_model.encoder.layers.append(skipped_layers.pop())
@classmethod
@contextmanager
def apply_freeu(
cls,
unet: UNet2DConditionModel,
freeu_config: Optional[FreeUConfig] = None,
) -> None:
did_apply_freeu = False
try:
assert hasattr(unet, "enable_freeu") # mypy doesn't pick up this attribute?
if freeu_config is not None:
unet.enable_freeu(b1=freeu_config.b1, b2=freeu_config.b2, s1=freeu_config.s1, s2=freeu_config.s2)
did_apply_freeu = True
yield
finally:
assert hasattr(unet, "disable_freeu") # mypy doesn't pick up this attribute?
if did_apply_freeu:
unet.disable_freeu()
class ONNXModelPatcher:
@classmethod
@contextmanager
def apply_lora_unet(
cls,
unet: OnnxRuntimeModel,
loras: Iterator[Tuple[LoRAModelRaw, float]],
) -> None:
with cls.apply_lora(unet, loras, "lora_unet_"):
yield
@classmethod
@contextmanager
def apply_lora_text_encoder(
cls,
text_encoder: OnnxRuntimeModel,
loras: List[Tuple[LoRAModelRaw, float]],
) -> None:
with cls.apply_lora(text_encoder, loras, "lora_te_"):
yield
# based on
# https://github.com/ssube/onnx-web/blob/ca2e436f0623e18b4cfe8a0363fcfcf10508acf7/api/onnx_web/convert/diffusion/lora.py#L323
@classmethod
@contextmanager
def apply_lora(
cls,
model: IAIOnnxRuntimeModel,
loras: List[Tuple[LoRAModelRaw, float]],
prefix: str,
) -> None:
from invokeai.backend.models.base import IAIOnnxRuntimeModel
if not isinstance(model, IAIOnnxRuntimeModel):
raise Exception("Only IAIOnnxRuntimeModel models supported")
orig_weights = {}
try:
blended_loras: Dict[str, torch.Tensor] = {}
for lora, lora_weight in loras:
for layer_key, layer in lora.layers.items():
if not layer_key.startswith(prefix):
continue
layer.to(dtype=torch.float32)
layer_key = layer_key.replace(prefix, "")
# TODO: rewrite to pass original tensor weight(required by ia3)
layer_weight = layer.get_weight(None).detach().cpu().numpy() * lora_weight
if layer_key in blended_loras:
blended_loras[layer_key] += layer_weight
else:
blended_loras[layer_key] = layer_weight
node_names = {}
for node in model.nodes.values():
node_names[node.name.replace("/", "_").replace(".", "_").lstrip("_")] = node.name
for layer_key, lora_weight in blended_loras.items():
conv_key = layer_key + "_Conv"
gemm_key = layer_key + "_Gemm"
matmul_key = layer_key + "_MatMul"
if conv_key in node_names or gemm_key in node_names:
if conv_key in node_names:
conv_node = model.nodes[node_names[conv_key]]
else:
conv_node = model.nodes[node_names[gemm_key]]
weight_name = [n for n in conv_node.input if ".weight" in n][0]
orig_weight = model.tensors[weight_name]
if orig_weight.shape[-2:] == (1, 1):
if lora_weight.shape[-2:] == (1, 1):
new_weight = orig_weight.squeeze((3, 2)) + lora_weight.squeeze((3, 2))
else:
new_weight = orig_weight.squeeze((3, 2)) + lora_weight
new_weight = np.expand_dims(new_weight, (2, 3))
else:
if orig_weight.shape != lora_weight.shape:
new_weight = orig_weight + lora_weight.reshape(orig_weight.shape)
else:
new_weight = orig_weight + lora_weight
orig_weights[weight_name] = orig_weight
model.tensors[weight_name] = new_weight.astype(orig_weight.dtype)
elif matmul_key in node_names:
weight_node = model.nodes[node_names[matmul_key]]
matmul_name = [n for n in weight_node.input if "MatMul" in n][0]
orig_weight = model.tensors[matmul_name]
new_weight = orig_weight + lora_weight.transpose()
orig_weights[matmul_name] = orig_weight
model.tensors[matmul_name] = new_weight.astype(orig_weight.dtype)
else:
# warn? err?
pass
yield
finally:
# restore original weights
for name, orig_weight in orig_weights.items():
model.tensors[name] = orig_weight
@classmethod
@contextmanager
def apply_ti(
cls,
tokenizer: CLIPTokenizer,
text_encoder: IAIOnnxRuntimeModel,
ti_list: List[Tuple[str, Any]],
) -> Iterator[Tuple[CLIPTokenizer, TextualInversionManager]]:
from invokeai.backend.models.base import IAIOnnxRuntimeModel
if not isinstance(text_encoder, IAIOnnxRuntimeModel):
raise Exception("Only IAIOnnxRuntimeModel models supported")
orig_embeddings = None
try:
# HACK: The CLIPTokenizer API does not include a way to remove tokens after calling add_tokens(...). As a
# workaround, we create a full copy of `tokenizer` so that its original behavior can be restored after
# exiting this `apply_ti(...)` context manager.
#
# In a previous implementation, the deep copy was obtained with `ti_tokenizer = copy.deepcopy(tokenizer)`,
# but a pickle roundtrip was found to be much faster (1 sec vs. 0.05 secs).
ti_tokenizer = pickle.loads(pickle.dumps(tokenizer))
ti_manager = TextualInversionManager(ti_tokenizer)
def _get_trigger(ti_name: str, index: int) -> str:
trigger = ti_name
if index > 0:
trigger += f"-!pad-{i}"
return f"<{trigger}>"
# modify text_encoder
orig_embeddings = text_encoder.tensors["text_model.embeddings.token_embedding.weight"]
# modify tokenizer
new_tokens_added = 0
for ti_name, ti in ti_list:
if ti.embedding_2 is not None:
ti_embedding = (
ti.embedding_2 if ti.embedding_2.shape[1] == orig_embeddings.shape[0] else ti.embedding
)
else:
ti_embedding = ti.embedding
for i in range(ti_embedding.shape[0]):
new_tokens_added += ti_tokenizer.add_tokens(_get_trigger(ti_name, i))
embeddings = np.concatenate(
(np.copy(orig_embeddings), np.zeros((new_tokens_added, orig_embeddings.shape[1]))),
axis=0,
)
for ti_name, _ in ti_list:
ti_tokens = []
for i in range(ti_embedding.shape[0]):
embedding = ti_embedding[i].detach().numpy()
trigger = _get_trigger(ti_name, i)
token_id = ti_tokenizer.convert_tokens_to_ids(trigger)
if token_id == ti_tokenizer.unk_token_id:
raise RuntimeError(f"Unable to find token id for token '{trigger}'")
if embeddings[token_id].shape != embedding.shape:
raise ValueError(
f"Cannot load embedding for {trigger}. It was trained on a model with token dimension"
f" {embedding.shape[0]}, but the current model has token dimension"
f" {embeddings[token_id].shape[0]}."
)
embeddings[token_id] = embedding
ti_tokens.append(token_id)
if len(ti_tokens) > 1:
ti_manager.pad_tokens[ti_tokens[0]] = ti_tokens[1:]
text_encoder.tensors["text_model.embeddings.token_embedding.weight"] = embeddings.astype(
orig_embeddings.dtype
)
yield ti_tokenizer, ti_manager
finally:
# restore
if orig_embeddings is not None:
text_encoder.tensors["text_model.embeddings.token_embedding.weight"] = orig_embeddings