mirror of
https://github.com/invoke-ai/InvokeAI
synced 2024-08-30 20:32:17 +00:00
659 lines
30 KiB
Python
659 lines
30 KiB
Python
import enum
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import math
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from typing import Optional, Callable
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import psutil
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import torch
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import diffusers
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from torch import nn
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from diffusers.models.unet_2d_condition import UNet2DConditionModel
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from diffusers.models.cross_attention import AttnProcessor
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from ldm.invoke.devices import torch_dtype
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# adapted from bloc97's CrossAttentionControl colab
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# https://github.com/bloc97/CrossAttentionControl
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class Arguments:
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def __init__(self, edited_conditioning: torch.Tensor, edit_opcodes: list[tuple], edit_options: dict):
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"""
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:param edited_conditioning: if doing cross-attention control, the edited conditioning [1 x 77 x 768]
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:param edit_opcodes: if doing cross-attention control, a list of difflib.SequenceMatcher-like opcodes describing how to map original conditioning tokens to edited conditioning tokens (only the 'equal' opcode is required)
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:param edit_options: if doing cross-attention control, per-edit options. there should be 1 item in edit_options for each item in edit_opcodes.
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"""
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# todo: rewrite this to take embedding fragments rather than a single edited_conditioning vector
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self.edited_conditioning = edited_conditioning
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self.edit_opcodes = edit_opcodes
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if edited_conditioning is not None:
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assert len(edit_opcodes) == len(edit_options), \
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"there must be 1 edit_options dict for each edit_opcodes tuple"
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non_none_edit_options = [x for x in edit_options if x is not None]
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assert len(non_none_edit_options)>0, "missing edit_options"
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if len(non_none_edit_options)>1:
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print('warning: cross-attention control options are not working properly for >1 edit')
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self.edit_options = non_none_edit_options[0]
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class CrossAttentionType(enum.Enum):
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SELF = 1
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TOKENS = 2
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class Context:
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cross_attention_mask: Optional[torch.Tensor]
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cross_attention_index_map: Optional[torch.Tensor]
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class Action(enum.Enum):
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NONE = 0
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SAVE = 1,
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APPLY = 2
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def __init__(self, arguments: Arguments, step_count: int):
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"""
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:param arguments: Arguments for the cross-attention control process
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:param step_count: The absolute total number of steps of diffusion (for img2img this is likely larger than the number of steps that will actually run)
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"""
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self.cross_attention_mask = None
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self.cross_attention_index_map = None
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self.self_cross_attention_action = Context.Action.NONE
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self.tokens_cross_attention_action = Context.Action.NONE
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self.arguments = arguments
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self.step_count = step_count
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self.self_cross_attention_module_identifiers = []
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self.tokens_cross_attention_module_identifiers = []
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self.saved_cross_attention_maps = {}
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self.clear_requests(cleanup=True)
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def register_cross_attention_modules(self, model):
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for name,module in get_cross_attention_modules(model, CrossAttentionType.SELF):
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if name in self.self_cross_attention_module_identifiers:
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assert False, f"name {name} cannot appear more than once"
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self.self_cross_attention_module_identifiers.append(name)
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for name,module in get_cross_attention_modules(model, CrossAttentionType.TOKENS):
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if name in self.tokens_cross_attention_module_identifiers:
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assert False, f"name {name} cannot appear more than once"
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self.tokens_cross_attention_module_identifiers.append(name)
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def request_save_attention_maps(self, cross_attention_type: CrossAttentionType):
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if cross_attention_type == CrossAttentionType.SELF:
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self.self_cross_attention_action = Context.Action.SAVE
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else:
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self.tokens_cross_attention_action = Context.Action.SAVE
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def request_apply_saved_attention_maps(self, cross_attention_type: CrossAttentionType):
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if cross_attention_type == CrossAttentionType.SELF:
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self.self_cross_attention_action = Context.Action.APPLY
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else:
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self.tokens_cross_attention_action = Context.Action.APPLY
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def is_tokens_cross_attention(self, module_identifier) -> bool:
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return module_identifier in self.tokens_cross_attention_module_identifiers
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def get_should_save_maps(self, module_identifier: str) -> bool:
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if module_identifier in self.self_cross_attention_module_identifiers:
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return self.self_cross_attention_action == Context.Action.SAVE
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elif module_identifier in self.tokens_cross_attention_module_identifiers:
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return self.tokens_cross_attention_action == Context.Action.SAVE
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return False
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def get_should_apply_saved_maps(self, module_identifier: str) -> bool:
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if module_identifier in self.self_cross_attention_module_identifiers:
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return self.self_cross_attention_action == Context.Action.APPLY
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elif module_identifier in self.tokens_cross_attention_module_identifiers:
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return self.tokens_cross_attention_action == Context.Action.APPLY
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return False
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def get_active_cross_attention_control_types_for_step(self, percent_through:float=None)\
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-> list[CrossAttentionType]:
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"""
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Should cross-attention control be applied on the given step?
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:param percent_through: How far through the step sequence are we (0.0=pure noise, 1.0=completely denoised image). Expected range 0.0..<1.0.
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:return: A list of attention types that cross-attention control should be performed for on the given step. May be [].
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"""
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if percent_through is None:
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return [CrossAttentionType.SELF, CrossAttentionType.TOKENS]
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opts = self.arguments.edit_options
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to_control = []
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if opts['s_start'] <= percent_through < opts['s_end']:
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to_control.append(CrossAttentionType.SELF)
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if opts['t_start'] <= percent_through < opts['t_end']:
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to_control.append(CrossAttentionType.TOKENS)
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return to_control
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def save_slice(self, identifier: str, slice: torch.Tensor, dim: Optional[int], offset: int,
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slice_size: Optional[int]):
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if identifier not in self.saved_cross_attention_maps:
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self.saved_cross_attention_maps[identifier] = {
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'dim': dim,
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'slice_size': slice_size,
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'slices': {offset or 0: slice}
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}
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else:
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self.saved_cross_attention_maps[identifier]['slices'][offset or 0] = slice
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def get_slice(self, identifier: str, requested_dim: Optional[int], requested_offset: int, slice_size: int):
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saved_attention_dict = self.saved_cross_attention_maps[identifier]
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if requested_dim is None:
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if saved_attention_dict['dim'] is not None:
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raise RuntimeError(f"dim mismatch: expected dim=None, have {saved_attention_dict['dim']}")
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return saved_attention_dict['slices'][0]
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if saved_attention_dict['dim'] == requested_dim:
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if slice_size != saved_attention_dict['slice_size']:
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raise RuntimeError(
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f"slice_size mismatch: expected slice_size={slice_size}, have {saved_attention_dict['slice_size']}")
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return saved_attention_dict['slices'][requested_offset]
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if saved_attention_dict['dim'] is None:
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whole_saved_attention = saved_attention_dict['slices'][0]
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if requested_dim == 0:
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return whole_saved_attention[requested_offset:requested_offset + slice_size]
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elif requested_dim == 1:
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return whole_saved_attention[:, requested_offset:requested_offset + slice_size]
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raise RuntimeError(f"Cannot convert dim {saved_attention_dict['dim']} to requested dim {requested_dim}")
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def get_slicing_strategy(self, identifier: str) -> tuple[Optional[int], Optional[int]]:
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saved_attention = self.saved_cross_attention_maps.get(identifier, None)
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if saved_attention is None:
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return None, None
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return saved_attention['dim'], saved_attention['slice_size']
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def clear_requests(self, cleanup=True):
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self.tokens_cross_attention_action = Context.Action.NONE
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self.self_cross_attention_action = Context.Action.NONE
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if cleanup:
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self.saved_cross_attention_maps = {}
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def offload_saved_attention_slices_to_cpu(self):
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for key, map_dict in self.saved_cross_attention_maps.items():
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for offset, slice in map_dict['slices'].items():
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map_dict[offset] = slice.to('cpu')
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class InvokeAICrossAttentionMixin:
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"""
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Enable InvokeAI-flavoured CrossAttention calculation, which does aggressive low-memory slicing and calls
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through both to an attention_slice_wrangler and a slicing_strategy_getter for custom attention map wrangling
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and dymamic slicing strategy selection.
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"""
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def __init__(self):
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self.mem_total_gb = psutil.virtual_memory().total // (1 << 30)
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self.attention_slice_wrangler = None
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self.slicing_strategy_getter = None
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self.attention_slice_calculated_callback = None
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def set_attention_slice_wrangler(self, wrangler: Optional[Callable[[nn.Module, torch.Tensor, int, int, int], torch.Tensor]]):
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'''
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Set custom attention calculator to be called when attention is calculated
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:param wrangler: Callback, with args (module, suggested_attention_slice, dim, offset, slice_size),
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which returns either the suggested_attention_slice or an adjusted equivalent.
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`module` is the current CrossAttention module for which the callback is being invoked.
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`suggested_attention_slice` is the default-calculated attention slice
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`dim` is -1 if the attenion map has not been sliced, or 0 or 1 for dimension-0 or dimension-1 slicing.
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If `dim` is >= 0, `offset` and `slice_size` specify the slice start and length.
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Pass None to use the default attention calculation.
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:return:
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'''
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self.attention_slice_wrangler = wrangler
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def set_slicing_strategy_getter(self, getter: Optional[Callable[[nn.Module], tuple[int,int]]]):
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self.slicing_strategy_getter = getter
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def set_attention_slice_calculated_callback(self, callback: Optional[Callable[[torch.Tensor], None]]):
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self.attention_slice_calculated_callback = callback
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def einsum_lowest_level(self, query, key, value, dim, offset, slice_size):
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# calculate attention scores
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#attention_scores = torch.einsum('b i d, b j d -> b i j', q, k)
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attention_scores = torch.baddbmm(
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torch.empty(query.shape[0], query.shape[1], key.shape[1], dtype=query.dtype, device=query.device),
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query,
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key.transpose(-1, -2),
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beta=0,
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alpha=self.scale,
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)
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# calculate attention slice by taking the best scores for each latent pixel
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default_attention_slice = attention_scores.softmax(dim=-1, dtype=attention_scores.dtype)
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attention_slice_wrangler = self.attention_slice_wrangler
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if attention_slice_wrangler is not None:
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attention_slice = attention_slice_wrangler(self, default_attention_slice, dim, offset, slice_size)
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else:
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attention_slice = default_attention_slice
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if self.attention_slice_calculated_callback is not None:
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self.attention_slice_calculated_callback(attention_slice, dim, offset, slice_size)
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hidden_states = torch.bmm(attention_slice, value)
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return hidden_states
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def einsum_op_slice_dim0(self, q, k, v, slice_size):
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r = torch.zeros(q.shape[0], q.shape[1], v.shape[2], device=q.device, dtype=q.dtype)
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for i in range(0, q.shape[0], slice_size):
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end = i + slice_size
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r[i:end] = self.einsum_lowest_level(q[i:end], k[i:end], v[i:end], dim=0, offset=i, slice_size=slice_size)
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return r
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def einsum_op_slice_dim1(self, q, k, v, slice_size):
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r = torch.zeros(q.shape[0], q.shape[1], v.shape[2], device=q.device, dtype=q.dtype)
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for i in range(0, q.shape[1], slice_size):
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end = i + slice_size
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r[:, i:end] = self.einsum_lowest_level(q[:, i:end], k, v, dim=1, offset=i, slice_size=slice_size)
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return r
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def einsum_op_mps_v1(self, q, k, v):
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if q.shape[1] <= 4096: # (512x512) max q.shape[1]: 4096
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return self.einsum_lowest_level(q, k, v, None, None, None)
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else:
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slice_size = math.floor(2**30 / (q.shape[0] * q.shape[1]))
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return self.einsum_op_slice_dim1(q, k, v, slice_size)
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def einsum_op_mps_v2(self, q, k, v):
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if self.mem_total_gb > 8 and q.shape[1] <= 4096:
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return self.einsum_lowest_level(q, k, v, None, None, None)
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else:
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return self.einsum_op_slice_dim0(q, k, v, 1)
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def einsum_op_tensor_mem(self, q, k, v, max_tensor_mb):
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size_mb = q.shape[0] * q.shape[1] * k.shape[1] * q.element_size() // (1 << 20)
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if size_mb <= max_tensor_mb:
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return self.einsum_lowest_level(q, k, v, None, None, None)
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div = 1 << int((size_mb - 1) / max_tensor_mb).bit_length()
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if div <= q.shape[0]:
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return self.einsum_op_slice_dim0(q, k, v, q.shape[0] // div)
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return self.einsum_op_slice_dim1(q, k, v, max(q.shape[1] // div, 1))
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def einsum_op_cuda(self, q, k, v):
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# check if we already have a slicing strategy (this should only happen during cross-attention controlled generation)
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slicing_strategy_getter = self.slicing_strategy_getter
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if slicing_strategy_getter is not None:
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(dim, slice_size) = slicing_strategy_getter(self)
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if dim is not None:
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# print("using saved slicing strategy with dim", dim, "slice size", slice_size)
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if dim == 0:
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return self.einsum_op_slice_dim0(q, k, v, slice_size)
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elif dim == 1:
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return self.einsum_op_slice_dim1(q, k, v, slice_size)
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# fallback for when there is no saved strategy, or saved strategy does not slice
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mem_free_total = get_mem_free_total(q.device)
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# Divide factor of safety as there's copying and fragmentation
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return self.einsum_op_tensor_mem(q, k, v, mem_free_total / 3.3 / (1 << 20))
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def get_invokeai_attention_mem_efficient(self, q, k, v):
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if q.device.type == 'cuda':
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#print("in get_attention_mem_efficient with q shape", q.shape, ", k shape", k.shape, ", free memory is", get_mem_free_total(q.device))
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return self.einsum_op_cuda(q, k, v)
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if q.device.type == 'mps' or q.device.type == 'cpu':
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if self.mem_total_gb >= 32:
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return self.einsum_op_mps_v1(q, k, v)
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return self.einsum_op_mps_v2(q, k, v)
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# Smaller slices are faster due to L2/L3/SLC caches.
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# Tested on i7 with 8MB L3 cache.
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return self.einsum_op_tensor_mem(q, k, v, 32)
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def restore_default_cross_attention(model, is_running_diffusers: bool, restore_attention_processor: Optional[AttnProcessor]=None):
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if is_running_diffusers:
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unet = model
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unet.set_attn_processor(restore_attention_processor or CrossAttnProcessor())
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else:
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remove_attention_function(model)
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def override_cross_attention(model, context: Context, is_running_diffusers = False):
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"""
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Inject attention parameters and functions into the passed in model to enable cross attention editing.
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:param model: The unet model to inject into.
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:param cross_attention_control_args: Arugments passeed to the CrossAttentionControl implementations
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:return: None
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"""
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# adapted from init_attention_edit
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device = context.arguments.edited_conditioning.device
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# urgh. should this be hardcoded?
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max_length = 77
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# mask=1 means use base prompt attention, mask=0 means use edited prompt attention
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mask = torch.zeros(max_length, dtype=torch_dtype(device))
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indices_target = torch.arange(max_length, dtype=torch.long)
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indices = torch.arange(max_length, dtype=torch.long)
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for name, a0, a1, b0, b1 in context.arguments.edit_opcodes:
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if b0 < max_length:
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if name == "equal":# or (name == "replace" and a1 - a0 == b1 - b0):
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# these tokens have not been edited
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indices[b0:b1] = indices_target[a0:a1]
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mask[b0:b1] = 1
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context.cross_attention_mask = mask.to(device)
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context.cross_attention_index_map = indices.to(device)
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if is_running_diffusers:
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unet = model
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old_attn_processors = unet.attn_processors
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if torch.backends.mps.is_available():
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# see note in StableDiffusionGeneratorPipeline.__init__ about borked slicing on MPS
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unet.set_attn_processor(SwapCrossAttnProcessor())
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else:
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# try to re-use an existing slice size
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default_slice_size = 4
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slice_size = next((p.slice_size for p in old_attn_processors.values() if type(p) is SlicedAttnProcessor), default_slice_size)
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unet.set_attn_processor(SlicedSwapCrossAttnProcesser(slice_size=slice_size))
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return old_attn_processors
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else:
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context.register_cross_attention_modules(model)
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inject_attention_function(model, context)
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return None
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def get_cross_attention_modules(model, which: CrossAttentionType) -> list[tuple[str, InvokeAICrossAttentionMixin]]:
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from ldm.modules.attention import CrossAttention # avoid circular import
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cross_attention_class: type = InvokeAIDiffusersCrossAttention if isinstance(model,UNet2DConditionModel) else CrossAttention
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which_attn = "attn1" if which is CrossAttentionType.SELF else "attn2"
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attention_module_tuples = [(name,module) for name, module in model.named_modules() if
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isinstance(module, cross_attention_class) and which_attn in name]
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cross_attention_modules_in_model_count = len(attention_module_tuples)
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expected_count = 16
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if cross_attention_modules_in_model_count != expected_count:
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# non-fatal error but .swap() won't work.
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print(f"Error! CrossAttentionControl found an unexpected number of {cross_attention_class} modules in the model " +
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f"(expected {expected_count}, found {cross_attention_modules_in_model_count}). Either monkey-patching failed " +
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f"or some assumption has changed about the structure of the model itself. Please fix the monkey-patching, " +
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f"and/or update the {expected_count} above to an appropriate number, and/or find and inform someone who knows " +
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f"what it means. This error is non-fatal, but it is likely that .swap() and attention map display will not " +
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f"work properly until it is fixed.")
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return attention_module_tuples
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def inject_attention_function(unet, context: Context):
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# ORIGINAL SOURCE CODE: https://github.com/huggingface/diffusers/blob/91ddd2a25b848df0fa1262d4f1cd98c7ccb87750/src/diffusers/models/attention.py#L276
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def attention_slice_wrangler(module, suggested_attention_slice:torch.Tensor, dim, offset, slice_size):
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#memory_usage = suggested_attention_slice.element_size() * suggested_attention_slice.nelement()
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attention_slice = suggested_attention_slice
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if context.get_should_save_maps(module.identifier):
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#print(module.identifier, "saving suggested_attention_slice of shape",
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# suggested_attention_slice.shape, "dim", dim, "offset", offset)
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slice_to_save = attention_slice.to('cpu') if dim is not None else attention_slice
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context.save_slice(module.identifier, slice_to_save, dim=dim, offset=offset, slice_size=slice_size)
|
|
elif context.get_should_apply_saved_maps(module.identifier):
|
|
#print(module.identifier, "applying saved attention slice for dim", dim, "offset", offset)
|
|
saved_attention_slice = context.get_slice(module.identifier, dim, offset, slice_size)
|
|
|
|
# slice may have been offloaded to CPU
|
|
saved_attention_slice = saved_attention_slice.to(suggested_attention_slice.device)
|
|
|
|
if context.is_tokens_cross_attention(module.identifier):
|
|
index_map = context.cross_attention_index_map
|
|
remapped_saved_attention_slice = torch.index_select(saved_attention_slice, -1, index_map)
|
|
this_attention_slice = suggested_attention_slice
|
|
|
|
mask = context.cross_attention_mask.to(torch_dtype(suggested_attention_slice.device))
|
|
saved_mask = mask
|
|
this_mask = 1 - mask
|
|
attention_slice = remapped_saved_attention_slice * saved_mask + \
|
|
this_attention_slice * this_mask
|
|
else:
|
|
# just use everything
|
|
attention_slice = saved_attention_slice
|
|
|
|
return attention_slice
|
|
|
|
cross_attention_modules = get_cross_attention_modules(unet, CrossAttentionType.TOKENS) + get_cross_attention_modules(unet, CrossAttentionType.SELF)
|
|
for identifier, module in cross_attention_modules:
|
|
module.identifier = identifier
|
|
try:
|
|
module.set_attention_slice_wrangler(attention_slice_wrangler)
|
|
module.set_slicing_strategy_getter(
|
|
lambda module: context.get_slicing_strategy(identifier)
|
|
)
|
|
except AttributeError as e:
|
|
if is_attribute_error_about(e, 'set_attention_slice_wrangler'):
|
|
print(f"TODO: implement set_attention_slice_wrangler for {type(module)}") # TODO
|
|
else:
|
|
raise
|
|
|
|
|
|
def remove_attention_function(unet):
|
|
cross_attention_modules = get_cross_attention_modules(unet, CrossAttentionType.TOKENS) + get_cross_attention_modules(unet, CrossAttentionType.SELF)
|
|
for identifier, module in cross_attention_modules:
|
|
try:
|
|
# clear wrangler callback
|
|
module.set_attention_slice_wrangler(None)
|
|
module.set_slicing_strategy_getter(None)
|
|
except AttributeError as e:
|
|
if is_attribute_error_about(e, 'set_attention_slice_wrangler'):
|
|
print(f"TODO: implement set_attention_slice_wrangler for {type(module)}")
|
|
else:
|
|
raise
|
|
|
|
|
|
def is_attribute_error_about(error: AttributeError, attribute: str):
|
|
if hasattr(error, 'name'): # Python 3.10
|
|
return error.name == attribute
|
|
else: # Python 3.9
|
|
return attribute in str(error)
|
|
|
|
|
|
|
|
def get_mem_free_total(device):
|
|
#only on cuda
|
|
if not torch.cuda.is_available():
|
|
return None
|
|
stats = torch.cuda.memory_stats(device)
|
|
mem_active = stats['active_bytes.all.current']
|
|
mem_reserved = stats['reserved_bytes.all.current']
|
|
mem_free_cuda, _ = torch.cuda.mem_get_info(device)
|
|
mem_free_torch = mem_reserved - mem_active
|
|
mem_free_total = mem_free_cuda + mem_free_torch
|
|
return mem_free_total
|
|
|
|
|
|
|
|
class InvokeAIDiffusersCrossAttention(diffusers.models.attention.CrossAttention, InvokeAICrossAttentionMixin):
|
|
|
|
def __init__(self, **kwargs):
|
|
super().__init__(**kwargs)
|
|
InvokeAICrossAttentionMixin.__init__(self)
|
|
|
|
def _attention(self, query, key, value, attention_mask=None):
|
|
#default_result = super()._attention(query, key, value)
|
|
if attention_mask is not None:
|
|
print(f"{type(self).__name__} ignoring passed-in attention_mask")
|
|
attention_result = self.get_invokeai_attention_mem_efficient(query, key, value)
|
|
|
|
hidden_states = self.reshape_batch_dim_to_heads(attention_result)
|
|
return hidden_states
|
|
|
|
|
|
|
|
|
|
|
|
## 🧨diffusers implementation follows
|
|
|
|
|
|
"""
|
|
# base implementation
|
|
|
|
class CrossAttnProcessor:
|
|
def __call__(self, attn: CrossAttention, hidden_states, encoder_hidden_states=None, attention_mask=None):
|
|
batch_size, sequence_length, _ = hidden_states.shape
|
|
attention_mask = attn.prepare_attention_mask(attention_mask, sequence_length)
|
|
|
|
query = attn.to_q(hidden_states)
|
|
query = attn.head_to_batch_dim(query)
|
|
|
|
encoder_hidden_states = encoder_hidden_states if encoder_hidden_states is not None else hidden_states
|
|
key = attn.to_k(encoder_hidden_states)
|
|
value = attn.to_v(encoder_hidden_states)
|
|
key = attn.head_to_batch_dim(key)
|
|
value = attn.head_to_batch_dim(value)
|
|
|
|
attention_probs = attn.get_attention_scores(query, key, attention_mask)
|
|
hidden_states = torch.bmm(attention_probs, value)
|
|
hidden_states = attn.batch_to_head_dim(hidden_states)
|
|
|
|
# linear proj
|
|
hidden_states = attn.to_out[0](hidden_states)
|
|
# dropout
|
|
hidden_states = attn.to_out[1](hidden_states)
|
|
|
|
return hidden_states
|
|
|
|
"""
|
|
from dataclasses import field, dataclass
|
|
|
|
import torch
|
|
|
|
from diffusers.models.cross_attention import CrossAttention, CrossAttnProcessor, SlicedAttnProcessor, AttnProcessor
|
|
|
|
|
|
@dataclass
|
|
class SwapCrossAttnContext:
|
|
modified_text_embeddings: torch.Tensor
|
|
index_map: torch.Tensor # maps from original prompt token indices to the equivalent tokens in the modified prompt
|
|
mask: torch.Tensor # in the target space of the index_map
|
|
cross_attention_types_to_do: list[CrossAttentionType] = field(default_factory=list)
|
|
|
|
def __int__(self,
|
|
cac_types_to_do: [CrossAttentionType],
|
|
modified_text_embeddings: torch.Tensor,
|
|
index_map: torch.Tensor,
|
|
mask: torch.Tensor):
|
|
self.cross_attention_types_to_do = cac_types_to_do
|
|
self.modified_text_embeddings = modified_text_embeddings
|
|
self.index_map = index_map
|
|
self.mask = mask
|
|
|
|
def wants_cross_attention_control(self, attn_type: CrossAttentionType) -> bool:
|
|
return attn_type in self.cross_attention_types_to_do
|
|
|
|
@classmethod
|
|
def make_mask_and_index_map(cls, edit_opcodes: list[tuple[str, int, int, int, int]], max_length: int) \
|
|
-> tuple[torch.Tensor, torch.Tensor]:
|
|
|
|
# mask=1 means use original prompt attention, mask=0 means use modified prompt attention
|
|
mask = torch.zeros(max_length)
|
|
indices_target = torch.arange(max_length, dtype=torch.long)
|
|
indices = torch.arange(max_length, dtype=torch.long)
|
|
for name, a0, a1, b0, b1 in edit_opcodes:
|
|
if b0 < max_length:
|
|
if name == "equal":
|
|
# these tokens remain the same as in the original prompt
|
|
indices[b0:b1] = indices_target[a0:a1]
|
|
mask[b0:b1] = 1
|
|
|
|
return mask, indices
|
|
|
|
|
|
class SlicedSwapCrossAttnProcesser(SlicedAttnProcessor):
|
|
|
|
# TODO: dynamically pick slice size based on memory conditions
|
|
|
|
def __call__(self, attn: CrossAttention, hidden_states, encoder_hidden_states=None, attention_mask=None,
|
|
# kwargs
|
|
swap_cross_attn_context: SwapCrossAttnContext=None):
|
|
|
|
attention_type = CrossAttentionType.SELF if encoder_hidden_states is None else CrossAttentionType.TOKENS
|
|
|
|
# if cross-attention control is not in play, just call through to the base implementation.
|
|
if attention_type is CrossAttentionType.SELF or \
|
|
swap_cross_attn_context is None or \
|
|
not swap_cross_attn_context.wants_cross_attention_control(attention_type):
|
|
#print(f"SwapCrossAttnContext for {attention_type} not active - passing request to superclass")
|
|
return super().__call__(attn, hidden_states, encoder_hidden_states, attention_mask)
|
|
#else:
|
|
# print(f"SwapCrossAttnContext for {attention_type} active")
|
|
|
|
batch_size, sequence_length, _ = hidden_states.shape
|
|
attention_mask = attn.prepare_attention_mask(attention_mask, sequence_length)
|
|
|
|
query = attn.to_q(hidden_states)
|
|
dim = query.shape[-1]
|
|
query = attn.head_to_batch_dim(query)
|
|
|
|
original_text_embeddings = encoder_hidden_states
|
|
modified_text_embeddings = swap_cross_attn_context.modified_text_embeddings
|
|
original_text_key = attn.to_k(original_text_embeddings)
|
|
modified_text_key = attn.to_k(modified_text_embeddings)
|
|
original_value = attn.to_v(original_text_embeddings)
|
|
modified_value = attn.to_v(modified_text_embeddings)
|
|
|
|
original_text_key = attn.head_to_batch_dim(original_text_key)
|
|
modified_text_key = attn.head_to_batch_dim(modified_text_key)
|
|
original_value = attn.head_to_batch_dim(original_value)
|
|
modified_value = attn.head_to_batch_dim(modified_value)
|
|
|
|
# compute slices and prepare output tensor
|
|
batch_size_attention = query.shape[0]
|
|
hidden_states = torch.zeros(
|
|
(batch_size_attention, sequence_length, dim // attn.heads), device=query.device, dtype=query.dtype
|
|
)
|
|
|
|
# do slices
|
|
for i in range(max(1,hidden_states.shape[0] // self.slice_size)):
|
|
start_idx = i * self.slice_size
|
|
end_idx = (i + 1) * self.slice_size
|
|
|
|
query_slice = query[start_idx:end_idx]
|
|
original_key_slice = original_text_key[start_idx:end_idx]
|
|
modified_key_slice = modified_text_key[start_idx:end_idx]
|
|
attn_mask_slice = attention_mask[start_idx:end_idx] if attention_mask is not None else None
|
|
|
|
original_attn_slice = attn.get_attention_scores(query_slice, original_key_slice, attn_mask_slice)
|
|
modified_attn_slice = attn.get_attention_scores(query_slice, modified_key_slice, attn_mask_slice)
|
|
|
|
# because the prompt modifications may result in token sequences shifted forwards or backwards,
|
|
# the original attention probabilities must be remapped to account for token index changes in the
|
|
# modified prompt
|
|
remapped_original_attn_slice = torch.index_select(original_attn_slice, -1,
|
|
swap_cross_attn_context.index_map)
|
|
|
|
# only some tokens taken from the original attention probabilities. this is controlled by the mask.
|
|
mask = swap_cross_attn_context.mask
|
|
inverse_mask = 1 - mask
|
|
attn_slice = \
|
|
remapped_original_attn_slice * mask + \
|
|
modified_attn_slice * inverse_mask
|
|
|
|
del remapped_original_attn_slice, modified_attn_slice
|
|
|
|
attn_slice = torch.bmm(attn_slice, modified_value[start_idx:end_idx])
|
|
hidden_states[start_idx:end_idx] = attn_slice
|
|
|
|
|
|
# done
|
|
hidden_states = attn.batch_to_head_dim(hidden_states)
|
|
|
|
# linear proj
|
|
hidden_states = attn.to_out[0](hidden_states)
|
|
# dropout
|
|
hidden_states = attn.to_out[1](hidden_states)
|
|
|
|
return hidden_states
|
|
|
|
|
|
class SwapCrossAttnProcessor(SlicedSwapCrossAttnProcesser):
|
|
|
|
def __init__(self):
|
|
super(SwapCrossAttnProcessor, self).__init__(slice_size=int(1e9)) # massive slice size = don't slice
|
|
|