2022-06-28 16:16:44 +00:00
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from typing import List, Tuple
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2022-06-27 15:57:56 +00:00
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import torch
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from torch import LongTensor, nn, FloatTensor, BoolTensor
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2022-06-28 16:16:44 +00:00
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torch.no_grad()
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2022-06-27 15:57:56 +00:00
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from .dalle_bart_encoder_torch import GLUTorch, AttentionTorch
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class DecoderCrossAttentionTorch(AttentionTorch):
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def forward(
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self,
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decoder_state: FloatTensor,
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encoder_state: FloatTensor,
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attention_mask: BoolTensor
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) -> FloatTensor:
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keys = self.k_proj.forward(encoder_state)
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values = self.v_proj.forward(encoder_state)
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queries = self.q_proj.forward(decoder_state)
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query_shape = queries.shape[:2] + (self.head_count, -1)
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key_value_shape = keys.shape[:2] + (self.head_count, -1)
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keys = keys.reshape(key_value_shape)
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values = values.reshape(key_value_shape)
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queries = queries.reshape(query_shape)
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queries /= queries.shape[-1] ** 0.5
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return super().forward(keys, values, queries, attention_mask)
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class DecoderSelfAttentionTorch(AttentionTorch):
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def forward(self,
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decoder_state: FloatTensor,
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keys_values: FloatTensor,
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attention_mask: BoolTensor,
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token_index: LongTensor
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) -> Tuple[FloatTensor, FloatTensor]:
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batch_count = decoder_state.shape[0]
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token_count = keys_values.shape[1]
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shape = (batch_count, 1) + keys_values.shape[2:]
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keys = self.k_proj.forward(decoder_state).view(shape)
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values = self.v_proj.forward(decoder_state).view(shape)
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token_mask = torch.arange(token_count) == token_index
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keys_values = torch.where(
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token_mask[None, :, None, None],
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torch.cat([keys, values]),
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keys_values
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)
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queries = self.q_proj.forward(decoder_state).reshape(shape)
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queries /= queries.shape[-1] ** 0.5
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keys, values = keys_values[:batch_count], keys_values[batch_count:]
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decoder_state = super().forward(keys, values, queries, attention_mask)
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return decoder_state, keys_values
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class DecoderLayerTorch(nn.Module):
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def __init__(self,
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image_token_count: int,
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head_count: int,
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embed_count: int,
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glu_embed_count: int
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):
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super().__init__()
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self.image_token_count = image_token_count
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self.pre_self_attn_layer_norm = nn.LayerNorm(embed_count)
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self.self_attn = DecoderSelfAttentionTorch(head_count, embed_count)
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self.self_attn_layer_norm = nn.LayerNorm(embed_count)
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self.pre_encoder_attn_layer_norm = nn.LayerNorm(embed_count)
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self.encoder_attn = DecoderCrossAttentionTorch(head_count, embed_count)
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self.encoder_attn_layer_norm = nn.LayerNorm(embed_count)
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self.glu = GLUTorch(embed_count, glu_embed_count)
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def forward(self,
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decoder_state: FloatTensor,
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encoder_state: FloatTensor,
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keys_values_state: FloatTensor,
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attention_mask: BoolTensor,
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token_index: LongTensor
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) -> Tuple[FloatTensor, FloatTensor]:
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# Self Attention
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residual = decoder_state
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decoder_state = self.pre_self_attn_layer_norm.forward(decoder_state)
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self_attn_mask = torch.arange(self.image_token_count) < token_index + 1
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self_attn_mask = torch.stack([self_attn_mask] * decoder_state.shape[0])
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decoder_state, keys_values_state = self.self_attn.forward(
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decoder_state,
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keys_values_state,
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self_attn_mask,
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token_index
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)
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decoder_state = self.self_attn_layer_norm.forward(decoder_state)
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decoder_state = residual + decoder_state
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# Cross Attention
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residual = decoder_state
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decoder_state = self.pre_encoder_attn_layer_norm.forward(decoder_state)
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decoder_state = self.encoder_attn.forward(
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decoder_state,
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encoder_state,
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attention_mask
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)
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decoder_state = self.encoder_attn_layer_norm.forward(decoder_state)
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decoder_state = residual + decoder_state
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# Feed forward
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residual = decoder_state
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decoder_state = self.glu.forward(decoder_state)
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decoder_state = residual + decoder_state
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return decoder_state, keys_values_state
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class DalleBartDecoderTorch(nn.Module):
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def __init__(self,
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image_vocab_size: int,
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image_token_count: int,
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sample_token_count: int,
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embed_count: int,
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attention_head_count: int,
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glu_embed_count: int,
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layer_count: int,
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batch_count: int,
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start_token: int,
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is_verbose: bool
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):
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super().__init__()
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self.is_verbose = is_verbose
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self.layer_count = layer_count
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self.sample_token_count = sample_token_count
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self.start_token = torch.tensor([start_token]).to(torch.long)
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self.pad_token = torch.tensor([1]).to(torch.long)
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self.condition_factor = torch.tensor([10]).to(torch.float)
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if torch.cuda.is_available():
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self.start_token = self.start_token.cuda()
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self.pad_token = self.pad_token.cuda()
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self.condition_factor = self.condition_factor.cuda()
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self.image_token_count = image_token_count
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self.embed_tokens = nn.Embedding(image_vocab_size + 1, embed_count)
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self.embed_positions = nn.Embedding(image_token_count, embed_count)
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self.layers: List[DecoderLayerTorch] = nn.ModuleList([
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DecoderLayerTorch(
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image_token_count,
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attention_head_count,
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embed_count,
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glu_embed_count
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)
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for _ in range(layer_count)
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])
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self.layernorm_embedding = nn.LayerNorm(embed_count)
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self.final_ln = nn.LayerNorm(embed_count)
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self.lm_head = nn.Linear(embed_count, image_vocab_size + 1, bias=False)
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self.keys_values_state_shape = (
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layer_count * 2 * batch_count,
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image_token_count,
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attention_head_count,
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embed_count // attention_head_count
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)
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def decode_step(self,
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text_tokens: LongTensor,
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encoder_state: FloatTensor,
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keys_values_state: FloatTensor,
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prev_token_and_index: LongTensor
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) -> Tuple[LongTensor, FloatTensor]:
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attention_mask = text_tokens.not_equal(self.pad_token)
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batch_count = encoder_state.shape[0]
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prev_token = torch.cat([prev_token_and_index[:1]] * batch_count)
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token_index = torch.cat([prev_token_and_index[1:]] * batch_count)
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decoder_state = self.embed_tokens.forward(prev_token)
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decoder_state += self.embed_positions.forward(token_index)
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decoder_state = self.layernorm_embedding.forward(decoder_state)
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decoder_state = decoder_state[:, None]
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keys_values = []
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for i, layer in enumerate(self.layers):
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j1, j2 = i * 2 * batch_count, (i + 1) * 2 * batch_count
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decoder_state, keys_values_layer = layer.forward(
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decoder_state,
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encoder_state,
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keys_values_state[j1:j2],
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attention_mask,
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token_index[:1]
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)
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keys_values.append(keys_values_layer)
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keys_values = torch.cat(keys_values, dim=0)
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decoder_state = self.final_ln(decoder_state)
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logits = self.lm_head(decoder_state)
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a = self.condition_factor
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logits: FloatTensor = a * logits[0, -1] + (1 - a) * logits[1, -1]
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top_logits = logits.sort(descending=True)[0][:50]
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probs = torch.where(
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logits < top_logits[-1],
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torch.zeros([1]),
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torch.exp(logits - top_logits[0])
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)
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return probs, keys_values
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def forward(self,
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text_tokens: LongTensor,
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encoder_state: FloatTensor
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) -> LongTensor:
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image_tokens: List[LongTensor] = []
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keys_values_state = torch.zeros(self.keys_values_state_shape)
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image_token = self.start_token
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for i in range(self.sample_token_count):
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token_index = torch.tensor([i]).to(torch.long)
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if torch.cuda.is_available(): token_index = token_index.cuda()
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probs, keys_values_state = self.decode_step(
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text_tokens = text_tokens,
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encoder_state = encoder_state,
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keys_values_state = keys_values_state,
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prev_token_and_index = torch.cat([image_token, token_index])
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)
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image_token = torch.multinomial(probs, 1)
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image_tokens += [image_token]
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if self.is_verbose:
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token = int(image_token.detach().numpy())
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print("image token {} is {}".format(i, token))
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return torch.cat(image_tokens)
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