# Copyright (c) 2023-2024, Zexin He # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # https://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from functools import partial import torch import torch.nn as nn #from accelerate.logging import get_logger #logger = get_logger(__name__) class TransformerDecoder(nn.Module): """ Transformer blocks that process the input and optionally use condition and modulation. """ def __init__(self, block_type: str, num_layers: int, num_heads: int, inner_dim: int, cond_dim: int = None, mod_dim: int = None, eps: float = 1e-6): super().__init__() self.block_type = block_type self.layers = nn.ModuleList([ self._block_fn(inner_dim, cond_dim, mod_dim)( num_heads=num_heads, eps=eps, ) for _ in range(num_layers) ]) self.norm = nn.LayerNorm(inner_dim, eps=eps) @property def block_type(self): return self._block_type @block_type.setter def block_type(self, block_type): assert block_type in ['basic', 'cond', 'mod', 'cond_mod'], \ f"Unsupported block type: {block_type}" self._block_type = block_type def _block_fn(self, inner_dim, cond_dim, mod_dim): assert inner_dim is not None, f"inner_dim must always be specified" if self.block_type == 'basic': assert cond_dim is None and mod_dim is None, \ f"Condition and modulation are not supported for BasicBlock" from .block import BasicBlock #logger.debug(f"Using BasicBlock") return partial(BasicBlock, inner_dim=inner_dim) elif self.block_type == 'cond': assert cond_dim is not None, f"Condition dimension must be specified for ConditionBlock" assert mod_dim is None, f"Modulation dimension is not supported for ConditionBlock" from .block import ConditionBlock #logger.debug(f"Using ConditionBlock") return partial(ConditionBlock, inner_dim=inner_dim, cond_dim=cond_dim) elif self.block_type == 'mod': #logger.error(f"modulation without condition is not implemented") raise NotImplementedError(f"modulation without condition is not implemented") elif self.block_type == 'cond_mod': assert cond_dim is not None and mod_dim is not None, \ f"Condition and modulation dimensions must be specified for ConditionModulationBlock" from .block import ConditionModulationBlock #logger.debug(f"Using ConditionModulationBlock") return partial(ConditionModulationBlock, inner_dim=inner_dim, cond_dim=cond_dim, mod_dim=mod_dim) else: raise ValueError(f"Unsupported block type during runtime: {self.block_type}") def assert_runtime_integrity(self, x: torch.Tensor, cond: torch.Tensor, mod: torch.Tensor): assert x is not None, f"Input tensor must be specified" if self.block_type == 'basic': assert cond is None and mod is None, \ f"Condition and modulation are not supported for BasicBlock" elif self.block_type == 'cond': assert cond is not None and mod is None, \ f"Condition must be specified and modulation is not supported for ConditionBlock" elif self.block_type == 'mod': raise NotImplementedError(f"modulation without condition is not implemented") else: assert cond is not None and mod is not None, \ f"Condition and modulation must be specified for ConditionModulationBlock" def forward_layer(self, layer: nn.Module, x: torch.Tensor, cond: torch.Tensor, mod: torch.Tensor): if self.block_type == 'basic': return layer(x) elif self.block_type == 'cond': return layer(x, cond) elif self.block_type == 'mod': return layer(x, mod) else: return layer(x, cond, mod) def forward(self, x: torch.Tensor, cond: torch.Tensor = None, mod: torch.Tensor = None): # x: [N, L, D] # cond: [N, L_cond, D_cond] or None # mod: [N, D_mod] or None self.assert_runtime_integrity(x, cond, mod) for layer in self.layers: x = self.forward_layer(layer, x, cond, mod) x = self.norm(x) return x