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

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import logging
import os
import re
import lora_patches
import network
import network_lora
import network_glora
import network_hada
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import network_ia3
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import network_lokr
import network_full
import network_norm
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import network_oft
import torch
from typing import Union
from modules import shared, devices, sd_models, errors, scripts, sd_hijack
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import modules.textual_inversion.textual_inversion as textual_inversion
from lora_logger import logger
module_types = [
network_lora.ModuleTypeLora(),
network_hada.ModuleTypeHada(),
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network_ia3.ModuleTypeIa3(),
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network_lokr.ModuleTypeLokr(),
network_full.ModuleTypeFull(),
network_norm.ModuleTypeNorm(),
network_glora.ModuleTypeGLora(),
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network_oft.ModuleTypeOFT(),
]
re_digits = re.compile(r"\d+")
re_x_proj = re.compile(r"(.*)_([qkv]_proj)$")
re_compiled = {}
suffix_conversion = {
"attentions": {},
"resnets": {
"conv1": "in_layers_2",
"conv2": "out_layers_3",
"norm1": "in_layers_0",
"norm2": "out_layers_0",
"time_emb_proj": "emb_layers_1",
"conv_shortcut": "skip_connection",
}
}
def convert_diffusers_name_to_compvis(key, is_sd2):
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 = []
if match(m, r"lora_unet_conv_in(.*)"):
return f'diffusion_model_input_blocks_0_0{m[0]}'
if match(m, r"lora_unet_conv_out(.*)"):
return f'diffusion_model_out_2{m[0]}'
if match(m, r"lora_unet_time_embedding_linear_(\d+)(.*)"):
return f"diffusion_model_time_embed_{m[0] * 2 - 2}{m[1]}"
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}"
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}"
if match(m, r"lora_unet_down_blocks_(\d+)_downsamplers_0_conv"):
return f"diffusion_model_input_blocks_{3 + m[0] * 3}_0_op"
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')}"
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]}"
if match(m, r"lora_te2_text_model_encoder_layers_(\d+)_(.+)"):
if 'mlp_fc1' in m[1]:
return f"1_model_transformer_resblocks_{m[0]}_{m[1].replace('mlp_fc1', 'mlp_c_fc')}"
elif 'mlp_fc2' in m[1]:
return f"1_model_transformer_resblocks_{m[0]}_{m[1].replace('mlp_fc2', 'mlp_c_proj')}"
else:
return f"1_model_transformer_resblocks_{m[0]}_{m[1].replace('self_attn', 'attn')}"
return key
def assign_network_names_to_compvis_modules(sd_model):
network_layer_mapping = {}
if shared.sd_model.is_sdxl:
for i, embedder in enumerate(shared.sd_model.conditioner.embedders):
if not hasattr(embedder, 'wrapped'):
continue
for name, module in embedder.wrapped.named_modules():
network_name = f'{i}_{name.replace(".", "_")}'
network_layer_mapping[network_name] = module
module.network_layer_name = network_name
else:
for name, module in shared.sd_model.cond_stage_model.wrapped.named_modules():
network_name = name.replace(".", "_")
network_layer_mapping[network_name] = module
module.network_layer_name = network_name
for name, module in shared.sd_model.model.named_modules():
network_name = name.replace(".", "_")
network_layer_mapping[network_name] = module
module.network_layer_name = network_name
sd_model.network_layer_mapping = network_layer_mapping
def load_network(name, network_on_disk):
net = network.Network(name, network_on_disk)
net.mtime = os.path.getmtime(network_on_disk.filename)
sd = sd_models.read_state_dict(network_on_disk.filename)
# this should not be needed but is here as an emergency fix for an unknown error people are experiencing in 1.2.0
if not hasattr(shared.sd_model, 'network_layer_mapping'):
assign_network_names_to_compvis_modules(shared.sd_model)
keys_failed_to_match = {}
is_sd2 = 'model_transformer_resblocks' in shared.sd_model.network_layer_mapping
matched_networks = {}
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bundle_embeddings = {}
for key_network, weight in sd.items():
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key_network_without_network_parts, _, network_part = key_network.partition(".")
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if key_network_without_network_parts == "bundle_emb":
emb_name, vec_name = network_part.split(".", 1)
emb_dict = bundle_embeddings.get(emb_name, {})
if vec_name.split('.')[0] == 'string_to_param':
_, k2 = vec_name.split('.', 1)
emb_dict['string_to_param'] = {k2: weight}
else:
emb_dict[vec_name] = weight
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bundle_embeddings[emb_name] = emb_dict
key = convert_diffusers_name_to_compvis(key_network_without_network_parts, is_sd2)
sd_module = shared.sd_model.network_layer_mapping.get(key, None)
if sd_module is None:
m = re_x_proj.match(key)
if m:
sd_module = shared.sd_model.network_layer_mapping.get(m.group(1), None)
# SDXL loras seem to already have correct compvis keys, so only need to replace "lora_unet" with "diffusion_model"
if sd_module is None and "lora_unet" in key_network_without_network_parts:
key = key_network_without_network_parts.replace("lora_unet", "diffusion_model")
sd_module = shared.sd_model.network_layer_mapping.get(key, None)
elif sd_module is None and "lora_te1_text_model" in key_network_without_network_parts:
key = key_network_without_network_parts.replace("lora_te1_text_model", "0_transformer_text_model")
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sd_module = shared.sd_model.network_layer_mapping.get(key, None)
# some SD1 Loras also have correct compvis keys
if sd_module is None:
key = key_network_without_network_parts.replace("lora_te1_text_model", "transformer_text_model")
sd_module = shared.sd_model.network_layer_mapping.get(key, None)
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# kohya_ss OFT module
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elif sd_module is None and "oft_unet" in key_network_without_network_parts:
key = key_network_without_network_parts.replace("oft_unet", "diffusion_model")
sd_module = shared.sd_model.network_layer_mapping.get(key, None)
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# KohakuBlueLeaf OFT module
if sd_module is None and "oft_diag" in key:
key = key_network_without_network_parts.replace("lora_unet", "diffusion_model")
key = key_network_without_network_parts.replace("lora_te1_text_model", "0_transformer_text_model")
sd_module = shared.sd_model.network_layer_mapping.get(key, None)
if sd_module is None:
keys_failed_to_match[key_network] = key
continue
if key not in matched_networks:
matched_networks[key] = network.NetworkWeights(network_key=key_network, sd_key=key, w={}, sd_module=sd_module)
matched_networks[key].w[network_part] = weight
for key, weights in matched_networks.items():
net_module = None
for nettype in module_types:
net_module = nettype.create_module(net, weights)
if net_module is not None:
break
if net_module is None:
raise AssertionError(f"Could not find a module type (out of {', '.join([x.__class__.__name__ for x in module_types])}) that would accept those keys: {', '.join(weights.w)}")
net.modules[key] = net_module
embeddings = {}
for emb_name, data in bundle_embeddings.items():
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embedding = textual_inversion.create_embedding_from_data(data, emb_name, filename=network_on_disk.filename + "/" + emb_name)
embedding.loaded = None
embeddings[emb_name] = embedding
net.bundle_embeddings = embeddings
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if keys_failed_to_match:
logging.debug(f"Network {network_on_disk.filename} didn't match keys: {keys_failed_to_match}")
return net
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def purge_networks_from_memory():
while len(networks_in_memory) > shared.opts.lora_in_memory_limit and len(networks_in_memory) > 0:
name = next(iter(networks_in_memory))
networks_in_memory.pop(name, None)
devices.torch_gc()
def load_networks(names, te_multipliers=None, unet_multipliers=None, dyn_dims=None):
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emb_db = sd_hijack.model_hijack.embedding_db
already_loaded = {}
for net in loaded_networks:
if net.name in names:
already_loaded[net.name] = net
for emb_name, embedding in net.bundle_embeddings.items():
if embedding.loaded:
emb_db.register_embedding_by_name(None, shared.sd_model, emb_name)
loaded_networks.clear()
networks_on_disk = [available_network_aliases.get(name, None) for name in names]
if any(x is None for x in networks_on_disk):
list_available_networks()
networks_on_disk = [available_network_aliases.get(name, None) for name in names]
failed_to_load_networks = []
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for i, (network_on_disk, name) in enumerate(zip(networks_on_disk, names)):
net = already_loaded.get(name, None)
if network_on_disk is not None:
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if net is None:
net = networks_in_memory.get(name)
if net is None or os.path.getmtime(network_on_disk.filename) > net.mtime:
try:
net = load_network(name, network_on_disk)
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networks_in_memory.pop(name, None)
networks_in_memory[name] = net
except Exception as e:
errors.display(e, f"loading network {network_on_disk.filename}")
continue
net.mentioned_name = name
network_on_disk.read_hash()
if net is None:
failed_to_load_networks.append(name)
logging.info(f"Couldn't find network with name {name}")
continue
net.te_multiplier = te_multipliers[i] if te_multipliers else 1.0
net.unet_multiplier = unet_multipliers[i] if unet_multipliers else 1.0
net.dyn_dim = dyn_dims[i] if dyn_dims else 1.0
loaded_networks.append(net)
for emb_name, embedding in net.bundle_embeddings.items():
if embedding.loaded is None and emb_name in emb_db.word_embeddings:
logger.warning(
f'Skip bundle embedding: "{emb_name}"'
' as it was already loaded from embeddings folder'
)
continue
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embedding.loaded = False
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if emb_db.expected_shape == -1 or emb_db.expected_shape == embedding.shape:
embedding.loaded = True
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emb_db.register_embedding(embedding, shared.sd_model)
else:
emb_db.skipped_embeddings[name] = embedding
if failed_to_load_networks:
sd_hijack.model_hijack.comments.append("Networks not found: " + ", ".join(failed_to_load_networks))
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purge_networks_from_memory()
def network_restore_weights_from_backup(self: Union[torch.nn.Conv2d, torch.nn.Linear, torch.nn.GroupNorm, torch.nn.LayerNorm, torch.nn.MultiheadAttention]):
weights_backup = getattr(self, "network_weights_backup", None)
bias_backup = getattr(self, "network_bias_backup", None)
if weights_backup is None and bias_backup is None:
return
if weights_backup is not None:
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)
if bias_backup is not None:
if isinstance(self, torch.nn.MultiheadAttention):
self.out_proj.bias.copy_(bias_backup)
else:
self.bias.copy_(bias_backup)
else:
if isinstance(self, torch.nn.MultiheadAttention):
self.out_proj.bias = None
else:
self.bias = None
def network_apply_weights(self: Union[torch.nn.Conv2d, torch.nn.Linear, torch.nn.GroupNorm, torch.nn.LayerNorm, torch.nn.MultiheadAttention]):
"""
Applies the currently selected set of networks to the weights of torch layer self.
If weights already have this particular set of networks applied, does nothing.
If not, restores orginal weights from backup and alters weights according to networks.
"""
network_layer_name = getattr(self, 'network_layer_name', None)
if network_layer_name is None:
return
current_names = getattr(self, "network_current_names", ())
wanted_names = tuple((x.name, x.te_multiplier, x.unet_multiplier, x.dyn_dim) for x in loaded_networks)
weights_backup = getattr(self, "network_weights_backup", None)
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if weights_backup is None and wanted_names != ():
if current_names != ():
raise RuntimeError("no backup weights found and current weights are not unchanged")
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.network_weights_backup = weights_backup
bias_backup = getattr(self, "network_bias_backup", None)
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if bias_backup is None:
if isinstance(self, torch.nn.MultiheadAttention) and self.out_proj.bias is not None:
bias_backup = self.out_proj.bias.to(devices.cpu, copy=True)
elif getattr(self, 'bias', None) is not None:
bias_backup = self.bias.to(devices.cpu, copy=True)
else:
bias_backup = None
self.network_bias_backup = bias_backup
if current_names != wanted_names:
network_restore_weights_from_backup(self)
for net in loaded_networks:
module = net.modules.get(network_layer_name, None)
if module is not None and hasattr(self, 'weight'):
try:
with torch.no_grad():
updown, ex_bias = module.calc_updown(self.weight)
if len(self.weight.shape) == 4 and self.weight.shape[1] == 9:
# inpainting model. zero pad updown to make channel[1] 4 to 9
updown = torch.nn.functional.pad(updown, (0, 0, 0, 0, 0, 5))
self.weight += updown
if ex_bias is not None and hasattr(self, 'bias'):
if self.bias is None:
self.bias = torch.nn.Parameter(ex_bias)
else:
self.bias += ex_bias
except RuntimeError as e:
logging.debug(f"Network {net.name} layer {network_layer_name}: {e}")
extra_network_lora.errors[net.name] = extra_network_lora.errors.get(net.name, 0) + 1
continue
module_q = net.modules.get(network_layer_name + "_q_proj", None)
module_k = net.modules.get(network_layer_name + "_k_proj", None)
module_v = net.modules.get(network_layer_name + "_v_proj", None)
module_out = net.modules.get(network_layer_name + "_out_proj", None)
if isinstance(self, torch.nn.MultiheadAttention) and module_q and module_k and module_v and module_out:
try:
with torch.no_grad():
updown_q, _ = module_q.calc_updown(self.in_proj_weight)
updown_k, _ = module_k.calc_updown(self.in_proj_weight)
updown_v, _ = module_v.calc_updown(self.in_proj_weight)
updown_qkv = torch.vstack([updown_q, updown_k, updown_v])
updown_out, ex_bias = module_out.calc_updown(self.out_proj.weight)
self.in_proj_weight += updown_qkv
self.out_proj.weight += updown_out
if ex_bias is not None:
if self.out_proj.bias is None:
self.out_proj.bias = torch.nn.Parameter(ex_bias)
else:
self.out_proj.bias += ex_bias
except RuntimeError as e:
logging.debug(f"Network {net.name} layer {network_layer_name}: {e}")
extra_network_lora.errors[net.name] = extra_network_lora.errors.get(net.name, 0) + 1
continue
if module is None:
continue
logging.debug(f"Network {net.name} layer {network_layer_name}: couldn't find supported operation")
extra_network_lora.errors[net.name] = extra_network_lora.errors.get(net.name, 0) + 1
self.network_current_names = wanted_names
def network_forward(module, input, original_forward):
"""
Old way of applying Lora by executing operations during layer's forward.
Stacking many loras this way results in big performance degradation.
"""
if len(loaded_networks) == 0:
return original_forward(module, input)
input = devices.cond_cast_unet(input)
network_restore_weights_from_backup(module)
network_reset_cached_weight(module)
y = original_forward(module, input)
network_layer_name = getattr(module, 'network_layer_name', None)
for lora in loaded_networks:
module = lora.modules.get(network_layer_name, None)
if module is None:
continue
y = module.forward(input, y)
return y
def network_reset_cached_weight(self: Union[torch.nn.Conv2d, torch.nn.Linear]):
self.network_current_names = ()
self.network_weights_backup = None
self.network_bias_backup = None
def network_Linear_forward(self, input):
if shared.opts.lora_functional:
return network_forward(self, input, originals.Linear_forward)
network_apply_weights(self)
return originals.Linear_forward(self, input)
def network_Linear_load_state_dict(self, *args, **kwargs):
network_reset_cached_weight(self)
return originals.Linear_load_state_dict(self, *args, **kwargs)
def network_Conv2d_forward(self, input):
if shared.opts.lora_functional:
return network_forward(self, input, originals.Conv2d_forward)
network_apply_weights(self)
return originals.Conv2d_forward(self, input)
def network_Conv2d_load_state_dict(self, *args, **kwargs):
network_reset_cached_weight(self)
return originals.Conv2d_load_state_dict(self, *args, **kwargs)
def network_GroupNorm_forward(self, input):
if shared.opts.lora_functional:
return network_forward(self, input, originals.GroupNorm_forward)
network_apply_weights(self)
return originals.GroupNorm_forward(self, input)
def network_GroupNorm_load_state_dict(self, *args, **kwargs):
network_reset_cached_weight(self)
return originals.GroupNorm_load_state_dict(self, *args, **kwargs)
def network_LayerNorm_forward(self, input):
if shared.opts.lora_functional:
return network_forward(self, input, originals.LayerNorm_forward)
network_apply_weights(self)
return originals.LayerNorm_forward(self, input)
def network_LayerNorm_load_state_dict(self, *args, **kwargs):
network_reset_cached_weight(self)
return originals.LayerNorm_load_state_dict(self, *args, **kwargs)
def network_MultiheadAttention_forward(self, *args, **kwargs):
network_apply_weights(self)
return originals.MultiheadAttention_forward(self, *args, **kwargs)
def network_MultiheadAttention_load_state_dict(self, *args, **kwargs):
network_reset_cached_weight(self)
return originals.MultiheadAttention_load_state_dict(self, *args, **kwargs)
def list_available_networks():
available_networks.clear()
available_network_aliases.clear()
forbidden_network_aliases.clear()
available_network_hash_lookup.clear()
forbidden_network_aliases.update({"none": 1, "Addams": 1})
os.makedirs(shared.cmd_opts.lora_dir, exist_ok=True)
candidates = list(shared.walk_files(shared.cmd_opts.lora_dir, allowed_extensions=[".pt", ".ckpt", ".safetensors"]))
candidates += list(shared.walk_files(shared.cmd_opts.lyco_dir_backcompat, allowed_extensions=[".pt", ".ckpt", ".safetensors"]))
for filename in candidates:
if os.path.isdir(filename):
continue
name = os.path.splitext(os.path.basename(filename))[0]
try:
entry = network.NetworkOnDisk(name, filename)
except OSError: # should catch FileNotFoundError and PermissionError etc.
errors.report(f"Failed to load network {name} from {filename}", exc_info=True)
continue
available_networks[name] = entry
if entry.alias in available_network_aliases:
forbidden_network_aliases[entry.alias.lower()] = 1
available_network_aliases[name] = entry
available_network_aliases[entry.alias] = entry
re_network_name = re.compile(r"(.*)\s*\([0-9a-fA-F]+\)")
def infotext_pasted(infotext, params):
if "AddNet Module 1" in [x[1] for x in scripts.scripts_txt2img.infotext_fields]:
return # if the other extension is active, it will handle those fields, no need to do anything
added = []
for k in params:
if not k.startswith("AddNet Model "):
continue
num = k[13:]
if params.get("AddNet Module " + num) != "LoRA":
continue
name = params.get("AddNet Model " + num)
if name is None:
continue
m = re_network_name.match(name)
if m:
name = m.group(1)
multiplier = params.get("AddNet Weight A " + num, "1.0")
added.append(f"<lora:{name}:{multiplier}>")
if added:
params["Prompt"] += "\n" + "".join(added)
originals: lora_patches.LoraPatches = None
extra_network_lora = None
available_networks = {}
available_network_aliases = {}
loaded_networks = []
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loaded_bundle_embeddings = {}
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networks_in_memory = {}
available_network_hash_lookup = {}
forbidden_network_aliases = {}
list_available_networks()