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import torch
import torch.nn.functional as nnf
#@title Imports
from transformers import GPT2Tokenizer, GPT2LMHeadModel, AdamW, get_linear_schedule_with_warmup
import clip
import os
from typing import Tuple, List, Union, Optional
from torch import nn
import numpy as np
import torch
import torch.nn.functional as nnf
import sys
T = torch.Tensor
D = torch.device
is_gpu = False
def get_device(device_id: int) -> D:
if not torch.cuda.is_available():
return CPU
device_id = min(torch.cuda.device_count() - 1, device_id)
return torch.device(f'cuda:{device_id}')
class MLP(nn.Module):
def forward(self, x: T) -> T:
return self.model(x)
def __init__(self, sizes: Tuple[int, ...], bias=True, act=nn.Tanh):
super(MLP, self).__init__()
layers = []
for i in range(len(sizes) -1):
layers.append(nn.Linear(sizes[i], sizes[i + 1], bias=bias))
if i < len(sizes) - 2:
layers.append(act())
self.model = nn.Sequential(*layers)
class ClipCaptionModel(nn.Module):
#@functools.lru_cache #FIXME
def get_dummy_token(self, batch_size: int, device: D) -> T:
return torch.zeros(batch_size, self.prefix_length, dtype=torch.int64, device=device)
def forward(self, tokens: T, prefix: T, mask: Optional[T] = None, labels: Optional[T] = None):
embedding_text = self.gpt.transformer.wte(tokens)
prefix_projections = self.clip_project(prefix).view(-1, self.prefix_length, self.gpt_embedding_size)
#print(embedding_text.size()) #torch.Size([5, 67, 768])
#print(prefix_projections.size()) #torch.Size([5, 1, 768])
embedding_cat = torch.cat((prefix_projections, embedding_text), dim=1)
if labels is not None:
dummy_token = self.get_dummy_token(tokens.shape[0], tokens.device)
labels = torch.cat((dummy_token, tokens), dim=1)
out = self.gpt(inputs_embeds=embedding_cat, labels=labels, attention_mask=mask)
return out
def __init__(self, prefix_length: int, prefix_size: int = 512):
super(ClipCaptionModel, self).__init__()
self.prefix_length = prefix_length
self.gpt = GPT2LMHeadModel.from_pretrained('gpt2')
self.gpt_embedding_size = self.gpt.transformer.wte.weight.shape[1]
if prefix_length > 10: # not enough memory
self.clip_project = nn.Linear(prefix_size, self.gpt_embedding_size * prefix_length)
else:
self.clip_project = MLP((prefix_size, (self.gpt_embedding_size * prefix_length) // 2, self.gpt_embedding_size * prefix_length))
class ClipCaptionPrefix(ClipCaptionModel):
def parameters(self, recurse: bool = True):
return self.clip_project.parameters()
def train(self, mode: bool = True):
super(ClipCaptionPrefix, self).train(mode)
self.gpt.eval()
return self
def generate_beam(model, tokenizer, beam_size: int = 5, prompt=None, embed=None,
entry_length=67, temperature=1., stop_token: str = '.'):
model.eval()
stop_token_index = tokenizer.encode(stop_token)[0]
tokens = None
scores = None
device = next(model.parameters()).device
seq_lengths = torch.ones(beam_size, device=device)
is_stopped = torch.zeros(beam_size, device=device, dtype=torch.bool)
with torch.no_grad():
if embed is not None:
generated = embed
else:
if tokens is None:
tokens = torch.tensor(tokenizer.encode(prompt))
tokens = tokens.unsqueeze(0).to(device)
generated = model.gpt.transformer.wte(tokens)
for i in range(entry_length):
outputs = model.gpt(inputs_embeds=generated)
logits = outputs.logits
logits = logits[:, -1, :] / (temperature if temperature > 0 else 1.0)
logits = logits.softmax(-1).log()
if scores is None:
scores, next_tokens = logits.topk(beam_size, -1)
generated = generated.expand(beam_size, *generated.shape[1:])
next_tokens, scores = next_tokens.permute(1, 0), scores.squeeze(0)
if tokens is None:
tokens = next_tokens
else:
tokens = tokens.expand(beam_size, *tokens.shape[1:])
tokens = torch.cat((tokens, next_tokens), dim=1)
else:
logits[is_stopped] = -float(np.inf)
logits[is_stopped, 0] = 0
scores_sum = scores[:, None] + logits
seq_lengths[~is_stopped] += 1
scores_sum_average = scores_sum / seq_lengths[:, None]
scores_sum_average, next_tokens = scores_sum_average.view(-1).topk(beam_size, -1)
next_tokens_source = next_tokens // scores_sum.shape[1]
seq_lengths = seq_lengths[next_tokens_source]
next_tokens = next_tokens % scores_sum.shape[1]
next_tokens = next_tokens.unsqueeze(1)
tokens = tokens[next_tokens_source]
tokens = torch.cat((tokens, next_tokens), dim=1)
generated = generated[next_tokens_source]
scores = scores_sum_average * seq_lengths
is_stopped = is_stopped[next_tokens_source]
next_token_embed = model.gpt.transformer.wte(next_tokens.squeeze()).view(generated.shape[0], 1, -1)
generated = torch.cat((generated, next_token_embed), dim=1)
is_stopped = is_stopped + next_tokens.eq(stop_token_index).squeeze()
if is_stopped.all():
break
scores = scores / seq_lengths
output_list = tokens.cpu().numpy()
output_texts = [tokenizer.decode(output[:int(length)]) for output, length in zip(output_list, seq_lengths)]
order = scores.argsort(descending=True)
output_texts = [output_texts[i] for i in order]
return output_texts