expand LoRA to all Conv2d

2026-04-09 06:45:09 +00:00 · 2023-03-06 22:03:09 +09:00
parent 5bb571ccc0
commit 19386df6e9
1 changed files with 106 additions and 17 deletions
--- a/networks/lora.py
+++ b/networks/lora.py
@@ -26,8 +26,16 @@ class LoRAModule(torch.nn.Module):
    if org_module.__class__.__name__ == 'Conv2d':
      in_dim = org_module.in_channels
      out_dim = org_module.out_channels
-      self.lora_down = torch.nn.Conv2d(in_dim, lora_dim, (1, 1), bias=False)
-      self.lora_up = torch.nn.Conv2d(lora_dim, out_dim, (1, 1), bias=False)
+
+      self.lora_dim = min(self.lora_dim, in_dim, out_dim)
+      if self.lora_dim != lora_dim:
+        print(f"{lora_name} dim (rank) is changed to: {self.lora_dim}")
+
+      kernel_size = org_module.kernel_size
+      stride = org_module.stride
+      padding = org_module.padding
+      self.lora_down = torch.nn.Conv2d(in_dim, self.lora_dim, kernel_size, stride, padding, bias=False)
+      self.lora_up = torch.nn.Conv2d(self.lora_dim, out_dim, (1, 1), (1, 1), bias=False)
    else:
      in_dim = org_module.in_features
      out_dim = org_module.out_features
@@ -56,6 +64,7 @@ class LoRAModule(torch.nn.Module):

  def set_region(self, region):
    self.region = region
+    self.region_mask = None

  def forward(self, x):
    if self.region is None:
@@ -67,6 +76,7 @@ class LoRAModule(torch.nn.Module):
      self.region = None
      return self.org_forward(x) + self.lora_up(self.lora_down(x)) * self.multiplier * self.scale

+    # calculate region mask first time
    if self.region_mask is None:
      if len(x.size()) == 4:
        h, w = x.size()[2:4]
@@ -95,7 +105,43 @@ class LoRAModule(torch.nn.Module):
 def create_network(multiplier, network_dim, network_alpha, vae, text_encoder, unet, **kwargs):
  if network_dim is None:
    network_dim = 4                     # default
-  network = LoRANetwork(text_encoder, unet, multiplier=multiplier, lora_dim=network_dim, alpha=network_alpha)
+
+  # extract dim/alpha for conv2d, and block dim
+  conv_dim = int(kwargs.get('conv_dim', network_dim))
+  conv_alpha = kwargs.get('conv_alpha', network_alpha)
+  if conv_alpha is not None:
+    conv_alpha = float(conv_alpha)
+
+  """
+  block_dims = kwargs.get("block_dims")
+  block_alphas = None
+
+  if block_dims is not None:
+    block_dims = [int(d) for d in block_dims.split(',')]
+    assert len(block_dims) == NUM_BLOCKS, f"Number of block dimensions is not same to {NUM_BLOCKS}"
+    block_alphas = kwargs.get("block_alphas")
+    if block_alphas is None:
+      block_alphas = [1] * len(block_dims)
+    else:
+      block_alphas = [int(a) for a in block_alphas(',')]
+    assert len(block_alphas) == NUM_BLOCKS, f"Number of block alphas is not same to {NUM_BLOCKS}"
+
+  conv_block_dims = kwargs.get("conv_block_dims")
+  conv_block_alphas = None
+
+  if conv_block_dims is not None:
+    conv_block_dims = [int(d) for d in conv_block_dims.split(',')]
+    assert len(conv_block_dims) == NUM_BLOCKS, f"Number of block dimensions is not same to {NUM_BLOCKS}"
+    conv_block_alphas = kwargs.get("conv_block_alphas")
+    if conv_block_alphas is None:
+      conv_block_alphas = [1] * len(conv_block_dims)
+    else:
+      conv_block_alphas = [int(a) for a in conv_block_alphas(',')]
+    assert len(conv_block_alphas) == NUM_BLOCKS, f"Number of block alphas is not same to {NUM_BLOCKS}"
+  """
+
+  network = LoRANetwork(text_encoder, unet, multiplier=multiplier, lora_dim=network_dim,
+                        alpha=network_alpha, conv_lora_dim=conv_dim, conv_alpha=conv_alpha)
  return network


@@ -106,45 +152,88 @@ def create_network_from_weights(multiplier, file, vae, text_encoder, unet, **kwa
  else:
    weights_sd = torch.load(file, map_location='cpu')

-  # get dim (rank)
-  network_alpha = None
-  network_dim = None
+  # get dim/alpha mapping
+  modules_dim = {}
+  modules_alpha = {}
  for key, value in weights_sd.items():
-    if network_alpha is None and 'alpha' in key:
-      network_alpha = value
-    if network_dim is None and 'lora_down' in key and len(value.size()) == 2:
-      network_dim = value.size()[0]
+    if '.' not in key:
+      continue

-  if network_alpha is None:
-    network_alpha = network_dim
+    lora_name = key.split('.')[0]
+    if 'alpha' in key:
+      modules_alpha[lora_name] = value
+    elif 'lora_down' in key:
+      dim = value.size()[0]
+      modules_dim[lora_name] = dim
+      print(lora_name, value.size(), dim)

-  network = LoRANetwork(text_encoder, unet, multiplier=multiplier, lora_dim=network_dim, alpha=network_alpha)
+  # support old LoRA without alpha
+  for key in modules_dim.keys():
+    if key not in modules_alpha:
+      modules_alpha = modules_dim[key]                      
+
+  network = LoRANetwork(text_encoder, unet, multiplier=multiplier, modules_dim=modules_dim, modules_alpha=modules_alpha)
  network.weights_sd = weights_sd
  return network


 class LoRANetwork(torch.nn.Module):
-  UNET_TARGET_REPLACE_MODULE = ["Transformer2DModel", "Attention"]
+  # is it possible to apply conv_in and conv_out?
+  UNET_TARGET_REPLACE_MODULE = ["Transformer2DModel", "Attention", "ResnetBlock2D", "Downsample2D", "Upsample2D"]
  TEXT_ENCODER_TARGET_REPLACE_MODULE = ["CLIPAttention", "CLIPMLP"]
  LORA_PREFIX_UNET = 'lora_unet'
  LORA_PREFIX_TEXT_ENCODER = 'lora_te'

-  def __init__(self, text_encoder, unet, multiplier=1.0, lora_dim=4, alpha=1) -> None:
+  def __init__(self, text_encoder, unet, multiplier=1.0, lora_dim=4, alpha=1, conv_lora_dim=None, conv_alpha=None, modules_dim=None, modules_alpha=None) -> None:
    super().__init__()
    self.multiplier = multiplier
+
    self.lora_dim = lora_dim
    self.alpha = alpha
+    self.conv_lora_dim = conv_lora_dim
+    self.conv_alpha = conv_alpha
+
+    if modules_dim is not None:
+      print(f"create LoRA network from weights")
+    else:
+      print(f"create LoRA network. base dim (rank): {lora_dim}, alpha: {alpha}")
+
+    self.apply_to_conv2d_3x3 = self.conv_lora_dim is not None
+    if self.apply_to_conv2d_3x3:
+      if self.conv_alpha is None:
+        self.conv_alpha = self.alpha
+      print(f"apply LoRA to Conv2d with kernel size (3,3). dim (rank): {self.conv_lora_dim}, alpha: {self.conv_alpha}")

    # create module instances
    def create_modules(prefix, root_module: torch.nn.Module, target_replace_modules) -> List[LoRAModule]:
      loras = []
      for name, module in root_module.named_modules():
        if module.__class__.__name__ in target_replace_modules:
+          # TODO get block index here
          for child_name, child_module in module.named_modules():
-            if child_module.__class__.__name__ == "Linear" or (child_module.__class__.__name__ == "Conv2d" and child_module.kernel_size == (1, 1)):
+            is_linear = child_module.__class__.__name__ == "Linear"
+            is_conv2d = child_module.__class__.__name__ == "Conv2d"
+            is_conv2d_1x1 = is_conv2d and child_module.kernel_size == (1, 1)
+            if is_linear or is_conv2d:
              lora_name = prefix + '.' + name + '.' + child_name
              lora_name = lora_name.replace('.', '_')
-              lora = LoRAModule(lora_name, child_module, self.multiplier, self.lora_dim, self.alpha)
+
+              if modules_dim is not None:
+                if lora_name not in modules_dim:
+                  continue                                      # no LoRA module in this weights file
+                dim = modules_dim[lora_name]
+                alpha = modules_alpha[lora_name]
+              else:
+                if is_linear or is_conv2d_1x1:
+                  dim = self.lora_dim
+                  alpha = self.alpha
+                elif self.apply_to_conv2d_3x3:
+                  dim = self.conv_lora_dim
+                  alpha = self.conv_alpha
+                else:
+                  continue
+
+              lora = LoRAModule(lora_name, child_module, self.multiplier, dim, alpha)
              loras.append(lora)
      return loras