mirror of
https://github.com/AUTOMATIC1111/stable-diffusion-webui.git
synced 2024-12-21 07:30:02 +08:00
a4a5475cfa
Implements variable dropout rate from #4549 Fixes hypernetwork multiplier being able to modified during training, also fixes user-errors by setting multiplier value to lower values for training. Changes function name to match torch.nn.module standard Fixes RNG reset issue when generating previews by restoring RNG state
734 lines
33 KiB
Python
734 lines
33 KiB
Python
import csv
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import datetime
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import glob
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import html
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import os
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import sys
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import traceback
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import inspect
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import modules.textual_inversion.dataset
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import torch
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import tqdm
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from einops import rearrange, repeat
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from ldm.util import default
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from modules import devices, processing, sd_models, shared, sd_samplers
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from modules.textual_inversion import textual_inversion, logging
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from modules.textual_inversion.learn_schedule import LearnRateScheduler
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from torch import einsum
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from torch.nn.init import normal_, xavier_normal_, xavier_uniform_, kaiming_normal_, kaiming_uniform_, zeros_
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from collections import defaultdict, deque
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from statistics import stdev, mean
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optimizer_dict = {optim_name : cls_obj for optim_name, cls_obj in inspect.getmembers(torch.optim, inspect.isclass) if optim_name != "Optimizer"}
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class HypernetworkModule(torch.nn.Module):
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multiplier = 1.0
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activation_dict = {
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"linear": torch.nn.Identity,
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"relu": torch.nn.ReLU,
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"leakyrelu": torch.nn.LeakyReLU,
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"elu": torch.nn.ELU,
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"swish": torch.nn.Hardswish,
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"tanh": torch.nn.Tanh,
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"sigmoid": torch.nn.Sigmoid,
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}
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activation_dict.update({cls_name.lower(): cls_obj for cls_name, cls_obj in inspect.getmembers(torch.nn.modules.activation) if inspect.isclass(cls_obj) and cls_obj.__module__ == 'torch.nn.modules.activation'})
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def __init__(self, dim, state_dict=None, layer_structure=None, activation_func=None, weight_init='Normal',
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add_layer_norm=False, activate_output=False, dropout_structure=None):
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super().__init__()
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assert layer_structure is not None, "layer_structure must not be None"
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assert layer_structure[0] == 1, "Multiplier Sequence should start with size 1!"
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assert layer_structure[-1] == 1, "Multiplier Sequence should end with size 1!"
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linears = []
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for i in range(len(layer_structure) - 1):
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# Add a fully-connected layer
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linears.append(torch.nn.Linear(int(dim * layer_structure[i]), int(dim * layer_structure[i+1])))
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# Add an activation func except last layer
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if activation_func == "linear" or activation_func is None or (i >= len(layer_structure) - 2 and not activate_output):
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pass
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elif activation_func in self.activation_dict:
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linears.append(self.activation_dict[activation_func]())
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else:
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raise RuntimeError(f'hypernetwork uses an unsupported activation function: {activation_func}')
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# Add layer normalization
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if add_layer_norm:
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linears.append(torch.nn.LayerNorm(int(dim * layer_structure[i+1])))
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# Everything should be now parsed into dropout structure, and applied here.
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# Since we only have dropouts after layers, dropout structure should start with 0 and end with 0.
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if dropout_structure is not None and dropout_structure[i+1] > 0:
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assert 0 < dropout_structure[i+1] < 1, "Dropout probability should be 0 or float between 0 and 1!"
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linears.append(torch.nn.Dropout(p=dropout_structure[i+1]))
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# Code explanation : [1, 2, 1] -> dropout is missing when last_layer_dropout is false. [1, 2, 2, 1] -> [0, 0.3, 0, 0], when its True, [0, 0.3, 0.3, 0].
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self.linear = torch.nn.Sequential(*linears)
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if state_dict is not None:
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self.fix_old_state_dict(state_dict)
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self.load_state_dict(state_dict)
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else:
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for layer in self.linear:
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if type(layer) == torch.nn.Linear or type(layer) == torch.nn.LayerNorm:
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w, b = layer.weight.data, layer.bias.data
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if weight_init == "Normal" or type(layer) == torch.nn.LayerNorm:
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normal_(w, mean=0.0, std=0.01)
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normal_(b, mean=0.0, std=0)
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elif weight_init == 'XavierUniform':
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xavier_uniform_(w)
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zeros_(b)
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elif weight_init == 'XavierNormal':
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xavier_normal_(w)
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zeros_(b)
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elif weight_init == 'KaimingUniform':
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kaiming_uniform_(w, nonlinearity='leaky_relu' if 'leakyrelu' == activation_func else 'relu')
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zeros_(b)
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elif weight_init == 'KaimingNormal':
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kaiming_normal_(w, nonlinearity='leaky_relu' if 'leakyrelu' == activation_func else 'relu')
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zeros_(b)
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else:
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raise KeyError(f"Key {weight_init} is not defined as initialization!")
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self.to(devices.device)
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def fix_old_state_dict(self, state_dict):
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changes = {
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'linear1.bias': 'linear.0.bias',
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'linear1.weight': 'linear.0.weight',
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'linear2.bias': 'linear.1.bias',
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'linear2.weight': 'linear.1.weight',
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}
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for fr, to in changes.items():
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x = state_dict.get(fr, None)
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if x is None:
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continue
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del state_dict[fr]
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state_dict[to] = x
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def forward(self, x):
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return x + self.linear(x) * (HypernetworkModule.multiplier if not self.training else 1)
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def trainables(self):
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layer_structure = []
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for layer in self.linear:
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if type(layer) == torch.nn.Linear or type(layer) == torch.nn.LayerNorm:
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layer_structure += [layer.weight, layer.bias]
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return layer_structure
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def apply_strength(value=None):
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HypernetworkModule.multiplier = value if value is not None else shared.opts.sd_hypernetwork_strength
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#param layer_structure : sequence used for length, use_dropout : controlling boolean, last_layer_dropout : for compatibility check.
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def parse_dropout_structure(layer_structure, use_dropout, last_layer_dropout):
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if layer_structure is None:
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layer_structure = [1, 2, 1]
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if not use_dropout:
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return [0] * len(layer_structure)
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dropout_values = [0]
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dropout_values.extend([0.3] * (len(layer_structure) - 3))
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if last_layer_dropout:
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dropout_values.append(0.3)
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else:
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dropout_values.append(0)
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dropout_values.append(0)
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return dropout_values
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class Hypernetwork:
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filename = None
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name = None
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def __init__(self, name=None, enable_sizes=None, layer_structure=None, activation_func=None, weight_init=None, add_layer_norm=False, use_dropout=False, activate_output=False, **kwargs):
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self.filename = None
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self.name = name
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self.layers = {}
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self.step = 0
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self.sd_checkpoint = None
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self.sd_checkpoint_name = None
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self.layer_structure = layer_structure
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self.activation_func = activation_func
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self.weight_init = weight_init
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self.add_layer_norm = add_layer_norm
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self.use_dropout = use_dropout
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self.activate_output = activate_output
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self.last_layer_dropout = kwargs.get('last_layer_dropout', True)
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self.dropout_structure = kwargs.get('dropout_structure', None)
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if self.dropout_structure is None:
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self.dropout_structure = parse_dropout_structure(self.layer_structure, self.use_dropout, self.last_layer_dropout)
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self.optimizer_name = None
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self.optimizer_state_dict = None
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self.optional_info = None
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for size in enable_sizes or []:
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self.layers[size] = (
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HypernetworkModule(size, None, self.layer_structure, self.activation_func, self.weight_init,
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self.add_layer_norm, self.activate_output, dropout_structure=self.dropout_structure),
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HypernetworkModule(size, None, self.layer_structure, self.activation_func, self.weight_init,
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self.add_layer_norm, self.activate_output, dropout_structure=self.dropout_structure),
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)
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self.eval()
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def weights(self):
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res = []
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for k, layers in self.layers.items():
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for layer in layers:
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res += layer.parameters()
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return res
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def train(self, mode=True):
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for k, layers in self.layers.items():
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for layer in layers:
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layer.train(mode=mode)
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for param in layer.parameters():
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param.requires_grad = mode
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def eval(self):
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for k, layers in self.layers.items():
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for layer in layers:
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layer.eval()
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for param in layer.parameters():
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param.requires_grad = False
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def save(self, filename):
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state_dict = {}
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optimizer_saved_dict = {}
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for k, v in self.layers.items():
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state_dict[k] = (v[0].state_dict(), v[1].state_dict())
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state_dict['step'] = self.step
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state_dict['name'] = self.name
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state_dict['layer_structure'] = self.layer_structure
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state_dict['activation_func'] = self.activation_func
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state_dict['is_layer_norm'] = self.add_layer_norm
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state_dict['weight_initialization'] = self.weight_init
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state_dict['sd_checkpoint'] = self.sd_checkpoint
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state_dict['sd_checkpoint_name'] = self.sd_checkpoint_name
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state_dict['activate_output'] = self.activate_output
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state_dict['use_dropout'] = self.use_dropout
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state_dict['dropout_structure'] = self.dropout_structure
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state_dict['last_layer_dropout'] = (self.dropout_structure[-2] != 0) if self.dropout_structure is not None else self.last_layer_dropout
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state_dict['optional_info'] = self.optional_info if self.optional_info else None
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if self.optimizer_name is not None:
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optimizer_saved_dict['optimizer_name'] = self.optimizer_name
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torch.save(state_dict, filename)
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if shared.opts.save_optimizer_state and self.optimizer_state_dict:
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optimizer_saved_dict['hash'] = sd_models.model_hash(filename)
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optimizer_saved_dict['optimizer_state_dict'] = self.optimizer_state_dict
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torch.save(optimizer_saved_dict, filename + '.optim')
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def load(self, filename):
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self.filename = filename
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if self.name is None:
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self.name = os.path.splitext(os.path.basename(filename))[0]
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state_dict = torch.load(filename, map_location='cpu')
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self.layer_structure = state_dict.get('layer_structure', [1, 2, 1])
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print(self.layer_structure)
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optional_info = state_dict.get('optional_info', None)
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if optional_info is not None:
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print(f"INFO:\n {optional_info}\n")
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self.optional_info = optional_info
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self.activation_func = state_dict.get('activation_func', None)
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print(f"Activation function is {self.activation_func}")
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self.weight_init = state_dict.get('weight_initialization', 'Normal')
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print(f"Weight initialization is {self.weight_init}")
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self.add_layer_norm = state_dict.get('is_layer_norm', False)
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print(f"Layer norm is set to {self.add_layer_norm}")
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self.dropout_structure = state_dict.get('dropout_structure', None)
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self.use_dropout = True if self.dropout_structure is not None and any(self.dropout_structure) else state_dict.get('use_dropout', False)
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print(f"Dropout usage is set to {self.use_dropout}" )
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self.activate_output = state_dict.get('activate_output', True)
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print(f"Activate last layer is set to {self.activate_output}")
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self.last_layer_dropout = state_dict.get('last_layer_dropout', False)
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# Dropout structure should have same length as layer structure, Every digits should be in [0,1), and last digit must be 0.
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if self.dropout_structure is None:
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print("Using previous dropout structure")
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self.dropout_structure = parse_dropout_structure(self.layer_structure, self.use_dropout, self.last_layer_dropout)
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print(f"Dropout structure is set to {self.dropout_structure}")
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optimizer_saved_dict = torch.load(self.filename + '.optim', map_location = 'cpu') if os.path.exists(self.filename + '.optim') else {}
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if sd_models.model_hash(filename) == optimizer_saved_dict.get('hash', None):
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self.optimizer_state_dict = optimizer_saved_dict.get('optimizer_state_dict', None)
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else:
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self.optimizer_state_dict = None
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if self.optimizer_state_dict:
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self.optimizer_name = optimizer_saved_dict.get('optimizer_name', 'AdamW')
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print("Loaded existing optimizer from checkpoint")
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print(f"Optimizer name is {self.optimizer_name}")
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else:
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self.optimizer_name = "AdamW"
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print("No saved optimizer exists in checkpoint")
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for size, sd in state_dict.items():
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if type(size) == int:
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self.layers[size] = (
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HypernetworkModule(size, sd[0], self.layer_structure, self.activation_func, self.weight_init,
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self.add_layer_norm, self.activate_output, self.dropout_structure),
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HypernetworkModule(size, sd[1], self.layer_structure, self.activation_func, self.weight_init,
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self.add_layer_norm, self.activate_output, self.dropout_structure),
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)
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self.name = state_dict.get('name', self.name)
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self.step = state_dict.get('step', 0)
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self.sd_checkpoint = state_dict.get('sd_checkpoint', None)
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self.sd_checkpoint_name = state_dict.get('sd_checkpoint_name', None)
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self.eval()
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def list_hypernetworks(path):
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res = {}
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for filename in sorted(glob.iglob(os.path.join(path, '**/*.pt'), recursive=True)):
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name = os.path.splitext(os.path.basename(filename))[0]
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# Prevent a hypothetical "None.pt" from being listed.
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if name != "None":
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res[name + f"({sd_models.model_hash(filename)})"] = filename
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return res
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def load_hypernetwork(filename):
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path = shared.hypernetworks.get(filename, None)
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# Prevent any file named "None.pt" from being loaded.
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if path is not None and filename != "None":
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print(f"Loading hypernetwork {filename}")
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try:
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shared.loaded_hypernetwork = Hypernetwork()
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shared.loaded_hypernetwork.load(path)
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except Exception:
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print(f"Error loading hypernetwork {path}", file=sys.stderr)
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print(traceback.format_exc(), file=sys.stderr)
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else:
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if shared.loaded_hypernetwork is not None:
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print("Unloading hypernetwork")
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shared.loaded_hypernetwork = None
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def find_closest_hypernetwork_name(search: str):
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if not search:
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return None
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search = search.lower()
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applicable = [name for name in shared.hypernetworks if search in name.lower()]
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if not applicable:
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return None
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applicable = sorted(applicable, key=lambda name: len(name))
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return applicable[0]
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def apply_hypernetwork(hypernetwork, context, layer=None):
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hypernetwork_layers = (hypernetwork.layers if hypernetwork is not None else {}).get(context.shape[2], None)
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if hypernetwork_layers is None:
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return context, context
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if layer is not None:
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layer.hyper_k = hypernetwork_layers[0]
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layer.hyper_v = hypernetwork_layers[1]
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context_k = hypernetwork_layers[0](context)
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context_v = hypernetwork_layers[1](context)
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return context_k, context_v
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def attention_CrossAttention_forward(self, x, context=None, mask=None):
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h = self.heads
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q = self.to_q(x)
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context = default(context, x)
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context_k, context_v = apply_hypernetwork(shared.loaded_hypernetwork, context, self)
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k = self.to_k(context_k)
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v = self.to_v(context_v)
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q, k, v = map(lambda t: rearrange(t, 'b n (h d) -> (b h) n d', h=h), (q, k, v))
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sim = einsum('b i d, b j d -> b i j', q, k) * self.scale
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if mask is not None:
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mask = rearrange(mask, 'b ... -> b (...)')
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max_neg_value = -torch.finfo(sim.dtype).max
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mask = repeat(mask, 'b j -> (b h) () j', h=h)
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sim.masked_fill_(~mask, max_neg_value)
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# attention, what we cannot get enough of
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attn = sim.softmax(dim=-1)
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out = einsum('b i j, b j d -> b i d', attn, v)
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out = rearrange(out, '(b h) n d -> b n (h d)', h=h)
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return self.to_out(out)
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def stack_conds(conds):
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if len(conds) == 1:
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return torch.stack(conds)
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# same as in reconstruct_multicond_batch
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token_count = max([x.shape[0] for x in conds])
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for i in range(len(conds)):
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if conds[i].shape[0] != token_count:
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last_vector = conds[i][-1:]
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last_vector_repeated = last_vector.repeat([token_count - conds[i].shape[0], 1])
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conds[i] = torch.vstack([conds[i], last_vector_repeated])
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return torch.stack(conds)
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def statistics(data):
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if len(data) < 2:
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std = 0
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else:
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std = stdev(data)
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total_information = f"loss:{mean(data):.3f}" + u"\u00B1" + f"({std/ (len(data) ** 0.5):.3f})"
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recent_data = data[-32:]
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if len(recent_data) < 2:
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std = 0
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else:
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std = stdev(recent_data)
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recent_information = f"recent 32 loss:{mean(recent_data):.3f}" + u"\u00B1" + f"({std / (len(recent_data) ** 0.5):.3f})"
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return total_information, recent_information
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def report_statistics(loss_info:dict):
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keys = sorted(loss_info.keys(), key=lambda x: sum(loss_info[x]) / len(loss_info[x]))
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for key in keys:
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try:
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print("Loss statistics for file " + key)
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info, recent = statistics(list(loss_info[key]))
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print(info)
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print(recent)
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except Exception as e:
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print(e)
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def create_hypernetwork(name, enable_sizes, overwrite_old, layer_structure=None, activation_func=None, weight_init=None, add_layer_norm=False, use_dropout=False, dropout_structure=None):
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# Remove illegal characters from name.
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name = "".join( x for x in name if (x.isalnum() or x in "._- "))
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assert name, "Name cannot be empty!"
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fn = os.path.join(shared.cmd_opts.hypernetwork_dir, f"{name}.pt")
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if not overwrite_old:
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assert not os.path.exists(fn), f"file {fn} already exists"
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if type(layer_structure) == str:
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layer_structure = [float(x.strip()) for x in layer_structure.split(",")]
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if use_dropout and dropout_structure and type(dropout_structure) == str:
|
|
dropout_structure = [float(x.strip()) for x in dropout_structure.split(",")]
|
|
else:
|
|
dropout_structure = [0] * len(layer_structure)
|
|
|
|
hypernet = modules.hypernetworks.hypernetwork.Hypernetwork(
|
|
name=name,
|
|
enable_sizes=[int(x) for x in enable_sizes],
|
|
layer_structure=layer_structure,
|
|
activation_func=activation_func,
|
|
weight_init=weight_init,
|
|
add_layer_norm=add_layer_norm,
|
|
use_dropout=use_dropout,
|
|
dropout_structure=dropout_structure
|
|
)
|
|
hypernet.save(fn)
|
|
|
|
shared.reload_hypernetworks()
|
|
|
|
|
|
def train_hypernetwork(hypernetwork_name, learn_rate, batch_size, gradient_step, data_root, log_directory, training_width, training_height, varsize, steps, clip_grad_mode, clip_grad_value, shuffle_tags, tag_drop_out, latent_sampling_method, create_image_every, save_hypernetwork_every, template_filename, preview_from_txt2img, preview_prompt, preview_negative_prompt, preview_steps, preview_sampler_index, preview_cfg_scale, preview_seed, preview_width, preview_height):
|
|
# images allows training previews to have infotext. Importing it at the top causes a circular import problem.
|
|
from modules import images
|
|
|
|
save_hypernetwork_every = save_hypernetwork_every or 0
|
|
create_image_every = create_image_every or 0
|
|
template_file = textual_inversion.textual_inversion_templates.get(template_filename, None)
|
|
textual_inversion.validate_train_inputs(hypernetwork_name, learn_rate, batch_size, gradient_step, data_root, template_file, template_filename, steps, save_hypernetwork_every, create_image_every, log_directory, name="hypernetwork")
|
|
template_file = template_file.path
|
|
|
|
path = shared.hypernetworks.get(hypernetwork_name, None)
|
|
shared.loaded_hypernetwork = Hypernetwork()
|
|
shared.loaded_hypernetwork.load(path)
|
|
|
|
shared.state.job = "train-hypernetwork"
|
|
shared.state.textinfo = "Initializing hypernetwork training..."
|
|
shared.state.job_count = steps
|
|
|
|
hypernetwork_name = hypernetwork_name.rsplit('(', 1)[0]
|
|
filename = os.path.join(shared.cmd_opts.hypernetwork_dir, f'{hypernetwork_name}.pt')
|
|
|
|
log_directory = os.path.join(log_directory, datetime.datetime.now().strftime("%Y-%m-%d"), hypernetwork_name)
|
|
unload = shared.opts.unload_models_when_training
|
|
|
|
if save_hypernetwork_every > 0:
|
|
hypernetwork_dir = os.path.join(log_directory, "hypernetworks")
|
|
os.makedirs(hypernetwork_dir, exist_ok=True)
|
|
else:
|
|
hypernetwork_dir = None
|
|
|
|
if create_image_every > 0:
|
|
images_dir = os.path.join(log_directory, "images")
|
|
os.makedirs(images_dir, exist_ok=True)
|
|
else:
|
|
images_dir = None
|
|
|
|
hypernetwork = shared.loaded_hypernetwork
|
|
checkpoint = sd_models.select_checkpoint()
|
|
|
|
initial_step = hypernetwork.step or 0
|
|
if initial_step >= steps:
|
|
shared.state.textinfo = "Model has already been trained beyond specified max steps"
|
|
return hypernetwork, filename
|
|
|
|
scheduler = LearnRateScheduler(learn_rate, steps, initial_step)
|
|
|
|
clip_grad = torch.nn.utils.clip_grad_value_ if clip_grad_mode == "value" else torch.nn.utils.clip_grad_norm_ if clip_grad_mode == "norm" else None
|
|
if clip_grad:
|
|
clip_grad_sched = LearnRateScheduler(clip_grad_value, steps, initial_step, verbose=False)
|
|
|
|
# dataset loading may take a while, so input validations and early returns should be done before this
|
|
shared.state.textinfo = f"Preparing dataset from {html.escape(data_root)}..."
|
|
|
|
pin_memory = shared.opts.pin_memory
|
|
|
|
ds = modules.textual_inversion.dataset.PersonalizedBase(data_root=data_root, width=training_width, height=training_height, repeats=shared.opts.training_image_repeats_per_epoch, placeholder_token=hypernetwork_name, model=shared.sd_model, cond_model=shared.sd_model.cond_stage_model, device=devices.device, template_file=template_file, include_cond=True, batch_size=batch_size, gradient_step=gradient_step, shuffle_tags=shuffle_tags, tag_drop_out=tag_drop_out, latent_sampling_method=latent_sampling_method, varsize=varsize)
|
|
|
|
if shared.opts.save_training_settings_to_txt:
|
|
saved_params = dict(
|
|
model_name=checkpoint.model_name, model_hash=checkpoint.hash, num_of_dataset_images=len(ds),
|
|
**{field: getattr(hypernetwork, field) for field in ['layer_structure', 'activation_func', 'weight_init', 'add_layer_norm', 'use_dropout', ]}
|
|
)
|
|
logging.save_settings_to_file(log_directory, {**saved_params, **locals()})
|
|
|
|
latent_sampling_method = ds.latent_sampling_method
|
|
|
|
dl = modules.textual_inversion.dataset.PersonalizedDataLoader(ds, latent_sampling_method=latent_sampling_method, batch_size=ds.batch_size, pin_memory=pin_memory)
|
|
|
|
old_parallel_processing_allowed = shared.parallel_processing_allowed
|
|
|
|
if unload:
|
|
shared.parallel_processing_allowed = False
|
|
shared.sd_model.cond_stage_model.to(devices.cpu)
|
|
shared.sd_model.first_stage_model.to(devices.cpu)
|
|
|
|
weights = hypernetwork.weights()
|
|
hypernetwork.train()
|
|
|
|
# Here we use optimizer from saved HN, or we can specify as UI option.
|
|
if hypernetwork.optimizer_name in optimizer_dict:
|
|
optimizer = optimizer_dict[hypernetwork.optimizer_name](params=weights, lr=scheduler.learn_rate)
|
|
optimizer_name = hypernetwork.optimizer_name
|
|
else:
|
|
print(f"Optimizer type {hypernetwork.optimizer_name} is not defined!")
|
|
optimizer = torch.optim.AdamW(params=weights, lr=scheduler.learn_rate)
|
|
optimizer_name = 'AdamW'
|
|
|
|
if hypernetwork.optimizer_state_dict: # This line must be changed if Optimizer type can be different from saved optimizer.
|
|
try:
|
|
optimizer.load_state_dict(hypernetwork.optimizer_state_dict)
|
|
except RuntimeError as e:
|
|
print("Cannot resume from saved optimizer!")
|
|
print(e)
|
|
|
|
scaler = torch.cuda.amp.GradScaler()
|
|
|
|
batch_size = ds.batch_size
|
|
gradient_step = ds.gradient_step
|
|
# n steps = batch_size * gradient_step * n image processed
|
|
steps_per_epoch = len(ds) // batch_size // gradient_step
|
|
max_steps_per_epoch = len(ds) // batch_size - (len(ds) // batch_size) % gradient_step
|
|
loss_step = 0
|
|
_loss_step = 0 #internal
|
|
# size = len(ds.indexes)
|
|
# loss_dict = defaultdict(lambda : deque(maxlen = 1024))
|
|
# losses = torch.zeros((size,))
|
|
# previous_mean_losses = [0]
|
|
# previous_mean_loss = 0
|
|
# print("Mean loss of {} elements".format(size))
|
|
|
|
steps_without_grad = 0
|
|
|
|
last_saved_file = "<none>"
|
|
last_saved_image = "<none>"
|
|
forced_filename = "<none>"
|
|
|
|
pbar = tqdm.tqdm(total=steps - initial_step)
|
|
try:
|
|
for i in range((steps-initial_step) * gradient_step):
|
|
if scheduler.finished:
|
|
break
|
|
if shared.state.interrupted:
|
|
break
|
|
for j, batch in enumerate(dl):
|
|
# works as a drop_last=True for gradient accumulation
|
|
if j == max_steps_per_epoch:
|
|
break
|
|
scheduler.apply(optimizer, hypernetwork.step)
|
|
if scheduler.finished:
|
|
break
|
|
if shared.state.interrupted:
|
|
break
|
|
|
|
if clip_grad:
|
|
clip_grad_sched.step(hypernetwork.step)
|
|
|
|
with devices.autocast():
|
|
x = batch.latent_sample.to(devices.device, non_blocking=pin_memory)
|
|
if tag_drop_out != 0 or shuffle_tags:
|
|
shared.sd_model.cond_stage_model.to(devices.device)
|
|
c = shared.sd_model.cond_stage_model(batch.cond_text).to(devices.device, non_blocking=pin_memory)
|
|
shared.sd_model.cond_stage_model.to(devices.cpu)
|
|
else:
|
|
c = stack_conds(batch.cond).to(devices.device, non_blocking=pin_memory)
|
|
loss = shared.sd_model(x, c)[0] / gradient_step
|
|
del x
|
|
del c
|
|
|
|
_loss_step += loss.item()
|
|
scaler.scale(loss).backward()
|
|
|
|
# go back until we reach gradient accumulation steps
|
|
if (j + 1) % gradient_step != 0:
|
|
continue
|
|
|
|
if clip_grad:
|
|
clip_grad(weights, clip_grad_sched.learn_rate)
|
|
|
|
scaler.step(optimizer)
|
|
scaler.update()
|
|
hypernetwork.step += 1
|
|
pbar.update()
|
|
optimizer.zero_grad(set_to_none=True)
|
|
loss_step = _loss_step
|
|
_loss_step = 0
|
|
|
|
steps_done = hypernetwork.step + 1
|
|
|
|
epoch_num = hypernetwork.step // steps_per_epoch
|
|
epoch_step = hypernetwork.step % steps_per_epoch
|
|
|
|
pbar.set_description(f"[Epoch {epoch_num}: {epoch_step+1}/{steps_per_epoch}]loss: {loss_step:.7f}")
|
|
if hypernetwork_dir is not None and steps_done % save_hypernetwork_every == 0:
|
|
# Before saving, change name to match current checkpoint.
|
|
hypernetwork_name_every = f'{hypernetwork_name}-{steps_done}'
|
|
last_saved_file = os.path.join(hypernetwork_dir, f'{hypernetwork_name_every}.pt')
|
|
hypernetwork.optimizer_name = optimizer_name
|
|
if shared.opts.save_optimizer_state:
|
|
hypernetwork.optimizer_state_dict = optimizer.state_dict()
|
|
save_hypernetwork(hypernetwork, checkpoint, hypernetwork_name, last_saved_file)
|
|
hypernetwork.optimizer_state_dict = None # dereference it after saving, to save memory.
|
|
|
|
textual_inversion.write_loss(log_directory, "hypernetwork_loss.csv", hypernetwork.step, steps_per_epoch, {
|
|
"loss": f"{loss_step:.7f}",
|
|
"learn_rate": scheduler.learn_rate
|
|
})
|
|
|
|
if images_dir is not None and steps_done % create_image_every == 0:
|
|
forced_filename = f'{hypernetwork_name}-{steps_done}'
|
|
last_saved_image = os.path.join(images_dir, forced_filename)
|
|
hypernetwork.eval()
|
|
rng_state = torch.get_rng_state()
|
|
cuda_rng_state = None
|
|
if torch.cuda.is_available():
|
|
cuda_rng_state = torch.cuda.get_rng_state_all()
|
|
shared.sd_model.cond_stage_model.to(devices.device)
|
|
shared.sd_model.first_stage_model.to(devices.device)
|
|
|
|
p = processing.StableDiffusionProcessingTxt2Img(
|
|
sd_model=shared.sd_model,
|
|
do_not_save_grid=True,
|
|
do_not_save_samples=True,
|
|
)
|
|
|
|
if preview_from_txt2img:
|
|
p.prompt = preview_prompt
|
|
p.negative_prompt = preview_negative_prompt
|
|
p.steps = preview_steps
|
|
p.sampler_name = sd_samplers.samplers[preview_sampler_index].name
|
|
p.cfg_scale = preview_cfg_scale
|
|
p.seed = preview_seed
|
|
p.width = preview_width
|
|
p.height = preview_height
|
|
else:
|
|
p.prompt = batch.cond_text[0]
|
|
p.steps = 20
|
|
p.width = training_width
|
|
p.height = training_height
|
|
|
|
preview_text = p.prompt
|
|
|
|
processed = processing.process_images(p)
|
|
image = processed.images[0] if len(processed.images) > 0 else None
|
|
|
|
if unload:
|
|
shared.sd_model.cond_stage_model.to(devices.cpu)
|
|
shared.sd_model.first_stage_model.to(devices.cpu)
|
|
torch.set_rng_state(rng_state)
|
|
if torch.cuda.is_available():
|
|
torch.cuda.set_rng_state_all(cuda_rng_state)
|
|
hypernetwork.train()
|
|
if image is not None:
|
|
shared.state.current_image = image
|
|
last_saved_image, last_text_info = images.save_image(image, images_dir, "", p.seed, p.prompt, shared.opts.samples_format, processed.infotexts[0], p=p, forced_filename=forced_filename, save_to_dirs=False)
|
|
last_saved_image += f", prompt: {preview_text}"
|
|
|
|
shared.state.job_no = hypernetwork.step
|
|
|
|
shared.state.textinfo = f"""
|
|
<p>
|
|
Loss: {loss_step:.7f}<br/>
|
|
Step: {steps_done}<br/>
|
|
Last prompt: {html.escape(batch.cond_text[0])}<br/>
|
|
Last saved hypernetwork: {html.escape(last_saved_file)}<br/>
|
|
Last saved image: {html.escape(last_saved_image)}<br/>
|
|
</p>
|
|
"""
|
|
except Exception:
|
|
print(traceback.format_exc(), file=sys.stderr)
|
|
finally:
|
|
pbar.leave = False
|
|
pbar.close()
|
|
hypernetwork.eval()
|
|
#report_statistics(loss_dict)
|
|
|
|
filename = os.path.join(shared.cmd_opts.hypernetwork_dir, f'{hypernetwork_name}.pt')
|
|
hypernetwork.optimizer_name = optimizer_name
|
|
if shared.opts.save_optimizer_state:
|
|
hypernetwork.optimizer_state_dict = optimizer.state_dict()
|
|
save_hypernetwork(hypernetwork, checkpoint, hypernetwork_name, filename)
|
|
|
|
del optimizer
|
|
hypernetwork.optimizer_state_dict = None # dereference it after saving, to save memory.
|
|
shared.sd_model.cond_stage_model.to(devices.device)
|
|
shared.sd_model.first_stage_model.to(devices.device)
|
|
shared.parallel_processing_allowed = old_parallel_processing_allowed
|
|
|
|
return hypernetwork, filename
|
|
|
|
def save_hypernetwork(hypernetwork, checkpoint, hypernetwork_name, filename):
|
|
old_hypernetwork_name = hypernetwork.name
|
|
old_sd_checkpoint = hypernetwork.sd_checkpoint if hasattr(hypernetwork, "sd_checkpoint") else None
|
|
old_sd_checkpoint_name = hypernetwork.sd_checkpoint_name if hasattr(hypernetwork, "sd_checkpoint_name") else None
|
|
try:
|
|
hypernetwork.sd_checkpoint = checkpoint.hash
|
|
hypernetwork.sd_checkpoint_name = checkpoint.model_name
|
|
hypernetwork.name = hypernetwork_name
|
|
hypernetwork.save(filename)
|
|
except:
|
|
hypernetwork.sd_checkpoint = old_sd_checkpoint
|
|
hypernetwork.sd_checkpoint_name = old_sd_checkpoint_name
|
|
hypernetwork.name = old_hypernetwork_name
|
|
raise
|