forked from extern/easydiffusion
cbe91251ac
* Update README.md * Update README.md * Make on_sd_start.sh executable * Merge pull request #542 from patriceac/patch-1 Fix restoration of model and VAE * Merge pull request #541 from patriceac/patch-2 Fix restoration of parallel output setting * Hypernetwork support Adds support for hypernetworks. Hypernetworks are stored in /models/hypernetworks * forgot to remove unused code Co-authored-by: cmdr2 <secondary.cmdr2@gmail.com>
198 lines
8.0 KiB
Python
198 lines
8.0 KiB
Python
# this is basically a cut down version of https://github.com/AUTOMATIC1111/stable-diffusion-webui/blob/c9a2cfdf2a53d37c2de1908423e4f548088667ef/modules/hypernetworks/hypernetwork.py, mostly for feature parity
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# I, c0bra5, don't really understand how deep learning works. I just know how to port stuff.
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import inspect
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import torch
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import optimizedSD.splitAttention
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from . import runtime
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from einops import rearrange
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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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loaded_hypernetwork = None
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class HypernetworkModule(torch.nn.Module):
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multiplier = 0.5
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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, use_dropout=False, activate_output=False, last_layer_dropout=False):
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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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# Add dropout except last layer
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if use_dropout and (i < len(layer_structure) - 3 or last_layer_dropout and i < len(layer_structure) - 2):
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linears.append(torch.nn.Dropout(p=0.3))
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self.linear = torch.nn.Sequential(*linears)
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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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self.to(runtime.thread_data.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: torch.Tensor):
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return x + self.linear(x) * runtime.thread_data.hypernetwork_strength
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def apply_hypernetwork(hypernetwork, context, layer=None):
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hypernetwork_layers = hypernetwork.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 get_kv(context, hypernetwork):
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if hypernetwork is None:
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return context, context
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else:
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return apply_hypernetwork(runtime.thread_data.hypernetwork, context)
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# This might need updating as the optimisedSD code changes
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# I think yall have a system for this (patch files in sd_internal) but idk how it works and no amount of searching gave me any clue
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# just in case for attribution https://github.com/easydiffusion/diffusion-kit/blob/e8ea0cadd543056059cd951e76d4744de76327d2/optimizedSD/splitAttention.py#L171
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def new_cross_attention_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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# default context
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context = context if context is not None else x() if inspect.isfunction(x) else x
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# hypernetwork!
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context_k, context_v = get_kv(context, runtime.thread_data.hypernetwork)
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k = self.to_k(context_k)
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v = self.to_v(context_v)
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del context, x
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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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limit = k.shape[0]
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att_step = self.att_step
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q_chunks = list(torch.tensor_split(q, limit//att_step, dim=0))
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k_chunks = list(torch.tensor_split(k, limit//att_step, dim=0))
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v_chunks = list(torch.tensor_split(v, limit//att_step, dim=0))
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q_chunks.reverse()
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k_chunks.reverse()
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v_chunks.reverse()
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sim = torch.zeros(q.shape[0], q.shape[1], v.shape[2], device=q.device)
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del k, q, v
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for i in range (0, limit, att_step):
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q_buffer = q_chunks.pop()
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k_buffer = k_chunks.pop()
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v_buffer = v_chunks.pop()
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sim_buffer = torch.einsum('b i d, b j d -> b i j', q_buffer, k_buffer) * self.scale
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del k_buffer, q_buffer
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# attention, what we cannot get enough of, by chunks
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sim_buffer = sim_buffer.softmax(dim=-1)
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sim_buffer = torch.einsum('b i j, b j d -> b i d', sim_buffer, v_buffer)
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del v_buffer
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sim[i:i+att_step,:,:] = sim_buffer
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del sim_buffer
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sim = rearrange(sim, '(b h) n d -> b n (h d)', h=h)
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return self.to_out(sim)
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def load_hypernetwork(path: str):
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state_dict = torch.load(path, map_location='cpu')
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layer_structure = state_dict.get('layer_structure', [1, 2, 1])
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activation_func = state_dict.get('activation_func', None)
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weight_init = state_dict.get('weight_initialization', 'Normal')
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add_layer_norm = state_dict.get('is_layer_norm', False)
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use_dropout = state_dict.get('use_dropout', False)
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activate_output = state_dict.get('activate_output', True)
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last_layer_dropout = state_dict.get('last_layer_dropout', False)
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# this is a bit verbose so leaving it commented out for the poor soul who ever has to debug this
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# print(f"layer_structure: {layer_structure}")
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# print(f"activation_func: {activation_func}")
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# print(f"weight_init: {weight_init}")
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# print(f"add_layer_norm: {add_layer_norm}")
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# print(f"use_dropout: {use_dropout}")
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# print(f"activate_output: {activate_output}")
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# print(f"last_layer_dropout: {last_layer_dropout}")
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layers = {}
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for size, sd in state_dict.items():
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if type(size) == int:
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layers[size] = (
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HypernetworkModule(size, sd[0], layer_structure, activation_func, weight_init, add_layer_norm,
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use_dropout, activate_output, last_layer_dropout=last_layer_dropout),
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HypernetworkModule(size, sd[1], layer_structure, activation_func, weight_init, add_layer_norm,
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use_dropout, activate_output, last_layer_dropout=last_layer_dropout),
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)
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print(f"hypernetwork loaded")
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return layers
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# overriding of original function
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old_cross_attention_forward = optimizedSD.splitAttention.CrossAttention.forward
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# hijacks the cross attention forward function to add hyper network support
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def hijack_cross_attention():
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print("hypernetwork functionality added to cross attention")
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optimizedSD.splitAttention.CrossAttention.forward = new_cross_attention_forward
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# there was a cop on board
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def unhijack_cross_attention_forward():
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print("hypernetwork functionality removed from cross attention")
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optimizedSD.splitAttention.CrossAttention.forward = old_cross_attention_forward
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hijack_cross_attention() |