stable-diffusion-webui/extensions-builtin/Lora/lora.py

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import glob
import os
import re
import torch
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from typing import Union
from modules import shared, devices, sd_models, errors
metadata_tags_order = {"ss_sd_model_name": 1, "ss_resolution": 2, "ss_clip_skip": 3, "ss_num_train_images": 10, "ss_tag_frequency": 20}
re_digits = re.compile(r"\d+")
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re_x_proj = re.compile(r"(.*)_([qkv]_proj)$")
re_compiled = {}
suffix_conversion = {
"attentions": {},
"resnets": {
"conv1": "in_layers_2",
"conv2": "out_layers_3",
"time_emb_proj": "emb_layers_1",
"conv_shortcut": "skip_connection",
}
}
def convert_diffusers_name_to_compvis(key, is_sd2):
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def match(match_list, regex_text):
regex = re_compiled.get(regex_text)
if regex is None:
regex = re.compile(regex_text)
re_compiled[regex_text] = regex
r = re.match(regex, key)
if not r:
return False
match_list.clear()
match_list.extend([int(x) if re.match(re_digits, x) else x for x in r.groups()])
return True
m = []
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if match(m, r"lora_unet_down_blocks_(\d+)_(attentions|resnets)_(\d+)_(.+)"):
suffix = suffix_conversion.get(m[1], {}).get(m[3], m[3])
return f"diffusion_model_input_blocks_{1 + m[0] * 3 + m[2]}_{1 if m[1] == 'attentions' else 0}_{suffix}"
if match(m, r"lora_unet_mid_block_(attentions|resnets)_(\d+)_(.+)"):
suffix = suffix_conversion.get(m[0], {}).get(m[2], m[2])
return f"diffusion_model_middle_block_{1 if m[0] == 'attentions' else m[1] * 2}_{suffix}"
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if match(m, r"lora_unet_up_blocks_(\d+)_(attentions|resnets)_(\d+)_(.+)"):
suffix = suffix_conversion.get(m[1], {}).get(m[3], m[3])
return f"diffusion_model_output_blocks_{m[0] * 3 + m[2]}_{1 if m[1] == 'attentions' else 0}_{suffix}"
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if match(m, r"lora_unet_down_blocks_(\d+)_downsamplers_0_conv"):
return f"diffusion_model_input_blocks_{3 + m[0] * 3}_0_op"
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if match(m, r"lora_unet_up_blocks_(\d+)_upsamplers_0_conv"):
return f"diffusion_model_output_blocks_{2 + m[0] * 3}_{2 if m[0]>0 else 1}_conv"
if match(m, r"lora_te_text_model_encoder_layers_(\d+)_(.+)"):
if is_sd2:
if 'mlp_fc1' in m[1]:
return f"model_transformer_resblocks_{m[0]}_{m[1].replace('mlp_fc1', 'mlp_c_fc')}"
elif 'mlp_fc2' in m[1]:
return f"model_transformer_resblocks_{m[0]}_{m[1].replace('mlp_fc2', 'mlp_c_proj')}"
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else:
return f"model_transformer_resblocks_{m[0]}_{m[1].replace('self_attn', 'attn')}"
return f"transformer_text_model_encoder_layers_{m[0]}_{m[1]}"
return key
class LoraOnDisk:
def __init__(self, name, filename):
self.name = name
self.filename = filename
self.metadata = {}
_, ext = os.path.splitext(filename)
if ext.lower() == ".safetensors":
try:
self.metadata = sd_models.read_metadata_from_safetensors(filename)
except Exception as e:
errors.display(e, f"reading lora {filename}")
if self.metadata:
m = {}
for k, v in sorted(self.metadata.items(), key=lambda x: metadata_tags_order.get(x[0], 999)):
m[k] = v
self.metadata = m
self.ssmd_cover_images = self.metadata.pop('ssmd_cover_images', None) # those are cover images and they are too big to display in UI as text
class LoraModule:
def __init__(self, name):
self.name = name
self.multiplier = 1.0
self.modules = {}
self.mtime = None
class LoraUpDownModule:
def __init__(self):
self.up = None
self.down = None
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self.alpha = None
def assign_lora_names_to_compvis_modules(sd_model):
lora_layer_mapping = {}
for name, module in shared.sd_model.cond_stage_model.wrapped.named_modules():
lora_name = name.replace(".", "_")
lora_layer_mapping[lora_name] = module
module.lora_layer_name = lora_name
for name, module in shared.sd_model.model.named_modules():
lora_name = name.replace(".", "_")
lora_layer_mapping[lora_name] = module
module.lora_layer_name = lora_name
sd_model.lora_layer_mapping = lora_layer_mapping
def load_lora(name, filename):
lora = LoraModule(name)
lora.mtime = os.path.getmtime(filename)
sd = sd_models.read_state_dict(filename)
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keys_failed_to_match = {}
is_sd2 = 'model_transformer_resblocks' in shared.sd_model.lora_layer_mapping
for key_diffusers, weight in sd.items():
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key_diffusers_without_lora_parts, lora_key = key_diffusers.split(".", 1)
key = convert_diffusers_name_to_compvis(key_diffusers_without_lora_parts, is_sd2)
sd_module = shared.sd_model.lora_layer_mapping.get(key, None)
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if sd_module is None:
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m = re_x_proj.match(key)
if m:
sd_module = shared.sd_model.lora_layer_mapping.get(m.group(1), None)
if sd_module is None:
keys_failed_to_match[key_diffusers] = key
continue
lora_module = lora.modules.get(key, None)
if lora_module is None:
lora_module = LoraUpDownModule()
lora.modules[key] = lora_module
if lora_key == "alpha":
lora_module.alpha = weight.item()
continue
if type(sd_module) == torch.nn.Linear:
module = torch.nn.Linear(weight.shape[1], weight.shape[0], bias=False)
elif type(sd_module) == torch.nn.modules.linear.NonDynamicallyQuantizableLinear:
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module = torch.nn.Linear(weight.shape[1], weight.shape[0], bias=False)
elif type(sd_module) == torch.nn.MultiheadAttention:
module = torch.nn.Linear(weight.shape[1], weight.shape[0], bias=False)
elif type(sd_module) == torch.nn.Conv2d:
module = torch.nn.Conv2d(weight.shape[1], weight.shape[0], (1, 1), bias=False)
else:
print(f'Lora layer {key_diffusers} matched a layer with unsupported type: {type(sd_module).__name__}')
continue
assert False, f'Lora layer {key_diffusers} matched a layer with unsupported type: {type(sd_module).__name__}'
with torch.no_grad():
module.weight.copy_(weight)
module.to(device=devices.cpu, dtype=devices.dtype)
if lora_key == "lora_up.weight":
lora_module.up = module
elif lora_key == "lora_down.weight":
lora_module.down = module
else:
assert False, f'Bad Lora layer name: {key_diffusers} - must end in lora_up.weight, lora_down.weight or alpha'
if len(keys_failed_to_match) > 0:
print(f"Failed to match keys when loading Lora {filename}: {keys_failed_to_match}")
return lora
def load_loras(names, multipliers=None):
already_loaded = {}
for lora in loaded_loras:
if lora.name in names:
already_loaded[lora.name] = lora
loaded_loras.clear()
loras_on_disk = [available_loras.get(name, None) for name in names]
if any([x is None for x in loras_on_disk]):
list_available_loras()
loras_on_disk = [available_loras.get(name, None) for name in names]
for i, name in enumerate(names):
lora = already_loaded.get(name, None)
lora_on_disk = loras_on_disk[i]
if lora_on_disk is not None:
if lora is None or os.path.getmtime(lora_on_disk.filename) > lora.mtime:
lora = load_lora(name, lora_on_disk.filename)
if lora is None:
print(f"Couldn't find Lora with name {name}")
continue
lora.multiplier = multipliers[i] if multipliers else 1.0
loaded_loras.append(lora)
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def lora_calc_updown(lora, module, target):
with torch.no_grad():
up = module.up.weight.to(target.device, dtype=target.dtype)
down = module.down.weight.to(target.device, dtype=target.dtype)
if up.shape[2:] == (1, 1) and down.shape[2:] == (1, 1):
updown = (up.squeeze(2).squeeze(2) @ down.squeeze(2).squeeze(2)).unsqueeze(2).unsqueeze(3)
else:
updown = up @ down
updown = updown * lora.multiplier * (module.alpha / module.up.weight.shape[1] if module.alpha else 1.0)
return updown
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def lora_apply_weights(self: Union[torch.nn.Conv2d, torch.nn.Linear, torch.nn.MultiheadAttention]):
"""
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Applies the currently selected set of Loras to the weights of torch layer self.
If weights already have this particular set of loras applied, does nothing.
If not, restores orginal weights from backup and alters weights according to loras.
"""
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lora_layer_name = getattr(self, 'lora_layer_name', None)
if lora_layer_name is None:
return
current_names = getattr(self, "lora_current_names", ())
wanted_names = tuple((x.name, x.multiplier) for x in loaded_loras)
weights_backup = getattr(self, "lora_weights_backup", None)
if weights_backup is None:
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if isinstance(self, torch.nn.MultiheadAttention):
weights_backup = (self.in_proj_weight.to(devices.cpu, copy=True), self.out_proj.weight.to(devices.cpu, copy=True))
else:
weights_backup = self.weight.to(devices.cpu, copy=True)
self.lora_weights_backup = weights_backup
if current_names != wanted_names:
if weights_backup is not None:
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if isinstance(self, torch.nn.MultiheadAttention):
self.in_proj_weight.copy_(weights_backup[0])
self.out_proj.weight.copy_(weights_backup[1])
else:
self.weight.copy_(weights_backup)
for lora in loaded_loras:
module = lora.modules.get(lora_layer_name, None)
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if module is not None and hasattr(self, 'weight'):
self.weight += lora_calc_updown(lora, module, self.weight)
continue
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module_q = lora.modules.get(lora_layer_name + "_q_proj", None)
module_k = lora.modules.get(lora_layer_name + "_k_proj", None)
module_v = lora.modules.get(lora_layer_name + "_v_proj", None)
module_out = lora.modules.get(lora_layer_name + "_out_proj", None)
if isinstance(self, torch.nn.MultiheadAttention) and module_q and module_k and module_v and module_out:
updown_q = lora_calc_updown(lora, module_q, self.in_proj_weight)
updown_k = lora_calc_updown(lora, module_k, self.in_proj_weight)
updown_v = lora_calc_updown(lora, module_v, self.in_proj_weight)
updown_qkv = torch.vstack([updown_q, updown_k, updown_v])
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self.in_proj_weight += updown_qkv
self.out_proj.weight += lora_calc_updown(lora, module_out, self.out_proj.weight)
continue
if module is None:
continue
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print(f'failed to calculate lora weights for layer {lora_layer_name}')
setattr(self, "lora_current_names", wanted_names)
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def lora_reset_cached_weight(self: Union[torch.nn.Conv2d, torch.nn.Linear]):
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setattr(self, "lora_current_names", ())
setattr(self, "lora_weights_backup", None)
def lora_Linear_forward(self, input):
lora_apply_weights(self)
return torch.nn.Linear_forward_before_lora(self, input)
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def lora_Linear_load_state_dict(self, *args, **kwargs):
lora_reset_cached_weight(self)
return torch.nn.Linear_load_state_dict_before_lora(self, *args, **kwargs)
def lora_Conv2d_forward(self, input):
lora_apply_weights(self)
return torch.nn.Conv2d_forward_before_lora(self, input)
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def lora_Conv2d_load_state_dict(self, *args, **kwargs):
lora_reset_cached_weight(self)
return torch.nn.Conv2d_load_state_dict_before_lora(self, *args, **kwargs)
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def lora_MultiheadAttention_forward(self, *args, **kwargs):
lora_apply_weights(self)
return torch.nn.MultiheadAttention_forward_before_lora(self, *args, **kwargs)
def lora_MultiheadAttention_load_state_dict(self, *args, **kwargs):
lora_reset_cached_weight(self)
return torch.nn.MultiheadAttention_load_state_dict_before_lora(self, *args, **kwargs)
def list_available_loras():
available_loras.clear()
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os.makedirs(shared.cmd_opts.lora_dir, exist_ok=True)
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candidates = \
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glob.glob(os.path.join(shared.cmd_opts.lora_dir, '**/*.pt'), recursive=True) + \
glob.glob(os.path.join(shared.cmd_opts.lora_dir, '**/*.safetensors'), recursive=True) + \
glob.glob(os.path.join(shared.cmd_opts.lora_dir, '**/*.ckpt'), recursive=True)
for filename in sorted(candidates):
if os.path.isdir(filename):
continue
name = os.path.splitext(os.path.basename(filename))[0]
available_loras[name] = LoraOnDisk(name, filename)
available_loras = {}
loaded_loras = []
list_available_loras()