remove einops exts for better pytorch 2.0 compile compatibility

dalle2_pytorch/dalle2_pytorch.py

@@ -12,10 +12,8 @@ from torch.utils.checkpoint import checkpoint
 from torch import nn, einsum
 import torchvision.transforms as T
 
-from einops import rearrange, repeat, reduce
+from einops import rearrange, repeat, reduce, pack, unpack
 from einops.layers.torch import Rearrange
-from einops_exts import rearrange_many, repeat_many, check_shape
-from einops_exts.torch import EinopsToAndFrom
 
 from kornia.filters import gaussian_blur2d
 import kornia.augmentation as K
@@ -360,6 +358,7 @@ class OpenAIClipAdapter(BaseClipAdapter):
         is_eos_id = (text == self.eos_id)
         text_mask_excluding_eos = is_eos_id.cumsum(dim = -1) == 0
         text_mask = F.pad(text_mask_excluding_eos, (1, -1), value = True)
+        text_mask = text_mask & (text != 0)
         assert not self.cleared
 
         text_embed = self.clip.encode_text(text)
@@ -434,6 +433,7 @@ class OpenClipAdapter(BaseClipAdapter):
         is_eos_id = (text == self.eos_id)
         text_mask_excluding_eos = is_eos_id.cumsum(dim = -1) == 0
         text_mask = F.pad(text_mask_excluding_eos, (1, -1), value = True)
+        text_mask = text_mask & (text != 0)
         assert not self.cleared
 
         text_embed = self.clip.encode_text(text)
@@ -667,6 +667,23 @@ class NoiseScheduler(nn.Module):
             return loss
         return loss * extract(self.p2_loss_weight, times, loss.shape)
 
+# rearrange image to sequence
+
+class RearrangeToSequence(nn.Module):
+    def __init__(self, fn):
+        super().__init__()
+        self.fn = fn
+
+    def forward(self, x):
+        x = rearrange(x, 'b c ... -> b ... c')
+        x, ps = pack([x], 'b * c')
+
+        x = self.fn(x)
+
+        x, = unpack(x, ps, 'b * c')
+        x = rearrange(x, 'b ... c -> b c ...')
+        return x
+
 # diffusion prior
 
 class LayerNorm(nn.Module):
@@ -865,7 +882,7 @@ class Attention(nn.Module):
 
         # add null key / value for classifier free guidance in prior net
 
-        nk, nv = repeat_many(self.null_kv.unbind(dim = -2), 'd -> b 1 d', b = b)
+        nk, nv = map(lambda t: repeat(t, 'd -> b 1 d', b = b), self.null_kv.unbind(dim = -2))
         k = torch.cat((nk, k), dim = -2)
         v = torch.cat((nv, v), dim = -2)
 
@@ -1122,7 +1139,7 @@ class DiffusionPriorNetwork(nn.Module):
         learned_queries = repeat(self.learned_query, 'd -> b 1 d', b = batch)
 
         if self.self_cond:
-            learned_queries = torch.cat((image_embed, self_cond), dim = -2)
+            learned_queries = torch.cat((self_cond, learned_queries), dim = -2)
 
         tokens = torch.cat((
             text_encodings,
@@ -1332,10 +1349,7 @@ class DiffusionPrior(nn.Module):
 
             # predict noise
 
-            if self.predict_x_start or self.predict_v:
-                pred_noise = self.noise_scheduler.predict_noise_from_start(image_embed, t = time_cond, x0 = x_start)
-            else:
-                pred_noise = pred
+            pred_noise = self.noise_scheduler.predict_noise_from_start(image_embed, t = time_cond, x0 = x_start)
 
             if time_next < 0:
                 image_embed = x_start
@@ -1630,14 +1644,10 @@ class ResnetBlock(nn.Module):
         self.cross_attn = None
 
         if exists(cond_dim):
-            self.cross_attn = EinopsToAndFrom(
-                'b c h w',
-                'b (h w) c',
-                CrossAttention(
-                    dim = dim_out,
-                    context_dim = cond_dim,
-                    cosine_sim = cosine_sim_cross_attn
-                )
+            self.cross_attn = CrossAttention(
+                dim = dim_out,
+                context_dim = cond_dim,
+                cosine_sim = cosine_sim_cross_attn
             )
 
         self.block1 = Block(dim, dim_out, groups = groups, weight_standardization = weight_standardization)
@@ -1656,8 +1666,15 @@ class ResnetBlock(nn.Module):
 
         if exists(self.cross_attn):
             assert exists(cond)
+
+            h = rearrange(h, 'b c ... -> b ... c')
+            h, ps = pack([h], 'b * c')
+
             h = self.cross_attn(h, context = cond) + h
 
+            h, = unpack(h, ps, 'b * c')
+            h = rearrange(h, 'b ... c -> b c ...')
+
         h = self.block2(h)
         return h + self.res_conv(x)
 
@@ -1703,11 +1720,11 @@ class CrossAttention(nn.Module):
 
         q, k, v = (self.to_q(x), *self.to_kv(context).chunk(2, dim = -1))
 
-        q, k, v = rearrange_many((q, k, v), 'b n (h d) -> b h n d', h = self.heads)
+        q, k, v = map(lambda t: rearrange(t, 'b n (h d) -> b h n d', h = self.heads), (q, k, v))
 
         # add null key / value for classifier free guidance in prior net
 
-        nk, nv = repeat_many(self.null_kv.unbind(dim = -2), 'd -> b h 1 d', h = self.heads,  b = b)
+        nk, nv = map(lambda t: repeat(t, 'd -> b h 1 d', h = self.heads,  b = b), self.null_kv.unbind(dim = -2))
 
         k = torch.cat((nk, k), dim = -2)
         v = torch.cat((nv, v), dim = -2)
@@ -1760,7 +1777,7 @@ class LinearAttention(nn.Module):
 
         fmap = self.norm(fmap)
         q, k, v = self.to_qkv(fmap).chunk(3, dim = 1)
-        q, k, v = rearrange_many((q, k, v), 'b (h c) x y -> (b h) (x y) c', h = h)
+        q, k, v = map(lambda t: rearrange(t, 'b (h c) x y -> (b h) (x y) c', h = h), (q, k, v))
 
         q = q.softmax(dim = -1)
         k = k.softmax(dim = -2)
@@ -1994,7 +2011,7 @@ class Unet(nn.Module):
 
         self_attn = cast_tuple(self_attn, num_stages)
 
-        create_self_attn = lambda dim: EinopsToAndFrom('b c h w', 'b (h w) c', Residual(Attention(dim, **attn_kwargs)))
+        create_self_attn = lambda dim: RearrangeToSequence(Residual(Attention(dim, **attn_kwargs)))
 
         # resnet block klass
 
@@ -2494,7 +2511,7 @@ class Decoder(nn.Module):
         dynamic_thres_percentile = 0.95,
         p2_loss_weight_gamma = 0.,                  # p2 loss weight, from https://arxiv.org/abs/2204.00227 - 0 is equivalent to weight of 1 across time - 1. is recommended
         p2_loss_weight_k = 1,
-        ddim_sampling_eta = 1.                      # can be set to 0. for deterministic sampling afaict
+        ddim_sampling_eta = 0.                      # can be set to 0. for deterministic sampling afaict
     ):
         super().__init__()
 
@@ -2728,11 +2745,16 @@ class Decoder(nn.Module):
         if exists(unet_number):
             unet = self.get_unet(unet_number)
 
+        # devices
+
+        cuda, cpu = torch.device('cuda'), torch.device('cpu')
+
         self.cuda()
 
         devices = [module_device(unet) for unet in self.unets]
-        self.unets.cpu()
-        unet.cuda()
+
+        self.unets.to(cpu)
+        unet.to(cuda)
 
         yield
 
@@ -2973,10 +2995,7 @@ class Decoder(nn.Module):
 
                 # predict noise
 
-                if predict_x_start or predict_v:
-                    pred_noise = noise_scheduler.predict_noise_from_start(img, t = time_cond, x0 = x_start)
-                else:
-                    pred_noise = pred
+                pred_noise = noise_scheduler.predict_noise_from_start(img, t = time_cond, x0 = x_start)
 
                 c1 = eta * ((1 - alpha / alpha_next) * (1 - alpha_next) / (1 - alpha)).sqrt()
                 c2 = ((1 - alpha_next) - torch.square(c1)).sqrt()
@@ -3118,7 +3137,8 @@ class Decoder(nn.Module):
         distributed = False,
         inpaint_image = None,
         inpaint_mask = None,
-        inpaint_resample_times = 5
+        inpaint_resample_times = 5,
+        one_unet_in_gpu_at_time = True
     ):
         assert self.unconditional or exists(image_embed), 'image embed must be present on sampling from decoder unless if trained unconditionally'
 
@@ -3141,6 +3161,7 @@ class Decoder(nn.Module):
             assert image.shape[0] == batch_size, 'image must have batch size of {} if starting at unet number > 1'.format(batch_size)
             prev_unet_output_size = self.image_sizes[start_at_unet_number - 2]
             img = resize_image_to(image, prev_unet_output_size, nearest = True)
+
         is_cuda = next(self.parameters()).is_cuda
 
         num_unets = self.num_unets
@@ -3150,7 +3171,7 @@ class Decoder(nn.Module):
             if unet_number < start_at_unet_number:
                 continue  # It's the easiest way to do it
 
-            context = self.one_unet_in_gpu(unet = unet) if is_cuda else null_context()
+            context = self.one_unet_in_gpu(unet = unet) if is_cuda and one_unet_in_gpu_at_time else null_context()
 
             with context:
                 # prepare low resolution conditioning for upsamplers
@@ -3227,7 +3248,7 @@ class Decoder(nn.Module):
         learned_variance    = self.learned_variance[unet_index]
         b, c, h, w, device, = *image.shape, image.device
 
-        check_shape(image, 'b c h w', c = self.channels)
+        assert image.shape[1] == self.channels
         assert h >= target_image_size and w >= target_image_size
 
         times = torch.randint(0, noise_scheduler.num_timesteps, (b,), device = device, dtype = torch.long)

dalle2_pytorch/version.py

@@ -1 +1 @@
-__version__ = '1.11.2'
+__version__ = '1.14.0'

dalle2_pytorch/vqgan_vae.py

@@ -11,8 +11,7 @@ import torch.nn.functional as F
 from torch.autograd import grad as torch_grad
 import torchvision
 
-from einops import rearrange, reduce, repeat
-from einops_exts import rearrange_many
+from einops import rearrange, reduce, repeat, pack, unpack
 from einops.layers.torch import Rearrange
 
 # constants
@@ -408,7 +407,7 @@ class Attention(nn.Module):
         x = self.norm(x)
 
         q, k, v = self.to_qkv(x).chunk(3, dim = -1)
-        q, k, v = rearrange_many((q, k, v), 'b n (h d) -> b h n d', h = h)
+        q, k, v = map(lambda t: rearrange(t, 'b n (h d) -> b h n d', h = h), (q, k, v))
 
         q = q * self.scale
         sim = einsum('b h i d, b h j d -> b h i j', q, k)

setup.py

@@ -27,11 +27,10 @@ setup(
     'accelerate',
     'click',
     'open-clip-torch>=2.0.0,<3.0.0',
-    'clip-anytorch>=2.4.0',
+    'clip-anytorch>=2.5.2',
     'coca-pytorch>=0.0.5',
     'ema-pytorch>=0.0.7',
-    'einops>=0.4',
-    'einops-exts>=0.0.3',
+    'einops>=0.6',
     'embedding-reader',
     'kornia>=0.5.4',
     'numpy',