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""" CLIP Model |
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Adapted from https://github.com/openai/CLIP. Originally MIT License, Copyright (c) 2021 OpenAI. |
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""" |
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import os |
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from dataclasses import dataclass |
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from typing import Optional, Tuple, Union |
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from functools import partial |
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import numpy as np |
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import torch |
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import torch.nn.functional as F |
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from torch import nn |
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try: |
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from .hf_model import HFTextEncoder |
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except: |
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HFTextEncoder = None |
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from .modified_resnet import ModifiedResNet |
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from .timm_model import TimmModel |
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from .eva_vit_model import EVAVisionTransformer |
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from .transformer import LayerNorm, QuickGELU, Attention, VisionTransformer, TextTransformer |
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try: |
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from apex.normalization import FusedLayerNorm |
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except: |
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FusedLayerNorm = LayerNorm |
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print("Please 'pip install apex'") |
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try: |
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import xformers.ops as xops |
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except ImportError: |
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xops = None |
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print("Please 'pip install xformers'") |
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@dataclass |
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class CLIPVisionCfg: |
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layers: Union[Tuple[int, int, int, int], int] = 12 |
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width: int = 768 |
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head_width: int = 64 |
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mlp_ratio: float = 4.0 |
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patch_size: int = 16 |
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image_size: Union[Tuple[int, int], int] = 224 |
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ls_init_value: Optional[float] = None |
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patch_dropout: float = 0. |
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global_average_pool: bool = False |
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drop_path_rate: Optional[float] = None |
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timm_model_name: str = None |
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timm_model_pretrained: bool = False |
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timm_pool: str = 'avg' |
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timm_proj: str = 'linear' |
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timm_proj_bias: bool = False |
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eva_model_name: str = None |
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qkv_bias: bool = True |
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fusedLN: bool = False |
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xattn: bool = False |
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postnorm: bool = False |
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rope: bool = False |
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pt_hw_seq_len: int = 16 |
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intp_freq: bool = False |
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naiveswiglu: bool = False |
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subln: bool = False |
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@dataclass |
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class CLIPTextCfg: |
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context_length: int = 77 |
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vocab_size: int = 49408 |
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width: int = 512 |
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heads: int = 8 |
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layers: int = 12 |
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ls_init_value: Optional[float] = None |
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hf_model_name: str = None |
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hf_tokenizer_name: str = None |
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hf_model_pretrained: bool = True |
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proj: str = 'mlp' |
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pooler_type: str = 'mean_pooler' |
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masked_language_modeling: bool = False |
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fusedLN: bool = False |
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xattn: bool = False |
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attn_mask: bool = True |
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def get_cast_dtype(precision: str): |
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cast_dtype = None |
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if precision == 'bf16': |
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cast_dtype = torch.bfloat16 |
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elif precision == 'fp16': |
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cast_dtype = torch.float16 |
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return cast_dtype |
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def _build_vision_tower( |
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embed_dim: int, |
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vision_cfg: CLIPVisionCfg, |
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quick_gelu: bool = False, |
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cast_dtype: Optional[torch.dtype] = None |
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): |
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if isinstance(vision_cfg, dict): |
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vision_cfg = CLIPVisionCfg(**vision_cfg) |
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act_layer = QuickGELU if quick_gelu else nn.GELU |
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if vision_cfg.eva_model_name: |
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vision_heads = vision_cfg.width // vision_cfg.head_width |
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norm_layer = LayerNorm |
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visual = EVAVisionTransformer( |
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img_size=vision_cfg.image_size, |
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patch_size=vision_cfg.patch_size, |
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num_classes=embed_dim, |
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use_mean_pooling=vision_cfg.global_average_pool, |
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init_values=vision_cfg.ls_init_value, |
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patch_dropout=vision_cfg.patch_dropout, |
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embed_dim=vision_cfg.width, |
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depth=vision_cfg.layers, |
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num_heads=vision_heads, |
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mlp_ratio=vision_cfg.mlp_ratio, |
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qkv_bias=vision_cfg.qkv_bias, |
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drop_path_rate=vision_cfg.drop_path_rate, |
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norm_layer= partial(FusedLayerNorm, eps=1e-6) if vision_cfg.fusedLN else partial(norm_layer, eps=1e-6), |
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xattn=vision_cfg.xattn, |
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rope=vision_cfg.rope, |
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postnorm=vision_cfg.postnorm, |
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pt_hw_seq_len= vision_cfg.pt_hw_seq_len, |
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intp_freq= vision_cfg.intp_freq, |
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naiveswiglu= vision_cfg.naiveswiglu, |
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subln= vision_cfg.subln |
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) |
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elif vision_cfg.timm_model_name: |
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visual = TimmModel( |
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vision_cfg.timm_model_name, |
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pretrained=vision_cfg.timm_model_pretrained, |
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pool=vision_cfg.timm_pool, |
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proj=vision_cfg.timm_proj, |
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proj_bias=vision_cfg.timm_proj_bias, |
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embed_dim=embed_dim, |
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image_size=vision_cfg.image_size |
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) |
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act_layer = nn.GELU |
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elif isinstance(vision_cfg.layers, (tuple, list)): |
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vision_heads = vision_cfg.width * 32 // vision_cfg.head_width |
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visual = ModifiedResNet( |
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layers=vision_cfg.layers, |
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output_dim=embed_dim, |
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heads=vision_heads, |
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image_size=vision_cfg.image_size, |
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width=vision_cfg.width |
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) |
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else: |
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vision_heads = vision_cfg.width // vision_cfg.head_width |
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norm_layer = LayerNormFp32 if cast_dtype in (torch.float16, torch.bfloat16) else LayerNorm |
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visual = VisionTransformer( |
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image_size=vision_cfg.image_size, |
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patch_size=vision_cfg.patch_size, |
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width=vision_cfg.width, |
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layers=vision_cfg.layers, |
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heads=vision_heads, |
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mlp_ratio=vision_cfg.mlp_ratio, |
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ls_init_value=vision_cfg.ls_init_value, |
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patch_dropout=vision_cfg.patch_dropout, |
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global_average_pool=vision_cfg.global_average_pool, |
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output_dim=embed_dim, |
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act_layer=act_layer, |
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norm_layer=norm_layer, |
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) |
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return visual |
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def _build_text_tower( |
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embed_dim: int, |
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text_cfg: CLIPTextCfg, |
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quick_gelu: bool = False, |
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cast_dtype: Optional[torch.dtype] = None, |
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): |
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if isinstance(text_cfg, dict): |
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text_cfg = CLIPTextCfg(**text_cfg) |
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if text_cfg.hf_model_name: |
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text = HFTextEncoder( |
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text_cfg.hf_model_name, |
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output_dim=embed_dim, |
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tokenizer_name=text_cfg.hf_tokenizer_name, |
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proj=text_cfg.proj, |
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pooler_type=text_cfg.pooler_type, |
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masked_language_modeling=text_cfg.masked_language_modeling |
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) |
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else: |
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act_layer = QuickGELU if quick_gelu else nn.GELU |
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norm_layer = LayerNorm |
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text = TextTransformer( |
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context_length=text_cfg.context_length, |
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vocab_size=text_cfg.vocab_size, |
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width=text_cfg.width, |
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heads=text_cfg.heads, |
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layers=text_cfg.layers, |
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ls_init_value=text_cfg.ls_init_value, |
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output_dim=embed_dim, |
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act_layer=act_layer, |
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norm_layer= FusedLayerNorm if text_cfg.fusedLN else norm_layer, |
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xattn=text_cfg.xattn, |
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attn_mask=text_cfg.attn_mask, |
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) |
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return text |
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class CLIP(nn.Module): |
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def __init__( |
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self, |
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embed_dim: int, |
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vision_cfg: CLIPVisionCfg, |
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text_cfg: CLIPTextCfg, |
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quick_gelu: bool = False, |
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cast_dtype: Optional[torch.dtype] = None, |
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): |
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super().__init__() |
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self.visual = _build_vision_tower(embed_dim, vision_cfg, quick_gelu, cast_dtype) |
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text = _build_text_tower(embed_dim, text_cfg, quick_gelu, cast_dtype) |
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self.transformer = text.transformer |
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self.vocab_size = text.vocab_size |
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self.token_embedding = text.token_embedding |
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self.positional_embedding = text.positional_embedding |
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self.ln_final = text.ln_final |
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self.text_projection = text.text_projection |
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self.register_buffer('attn_mask', text.attn_mask, persistent=False) |
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self.logit_scale = nn.Parameter(torch.ones([]) * np.log(1 / 0.07)) |
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def lock_image_tower(self, unlocked_groups=0, freeze_bn_stats=False): |
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self.visual.lock(unlocked_groups=unlocked_groups, freeze_bn_stats=freeze_bn_stats) |
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@torch.jit.ignore |
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def set_grad_checkpointing(self, enable=True): |
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self.visual.set_grad_checkpointing(enable) |
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self.transformer.grad_checkpointing = enable |
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@torch.jit.ignore |
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def no_weight_decay(self): |
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return {'logit_scale'} |
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def encode_image(self, image, normalize: bool = False): |
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features = self.visual(image) |
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return F.normalize(features, dim=-1) if normalize else features |
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def encode_text(self, text, normalize: bool = False): |
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cast_dtype = self.transformer.get_cast_dtype() |
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x = self.token_embedding(text).to(cast_dtype) |
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x = x + self.positional_embedding.to(cast_dtype) |
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x = x.permute(1, 0, 2) |
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x = self.transformer(x, attn_mask=self.attn_mask) |
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x = x.permute(1, 0, 2) |
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x = self.ln_final(x) |
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x = x[torch.arange(x.shape[0]), text.argmax(dim=-1)] @ self.text_projection |
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return F.normalize(x, dim=-1) if normalize else x |
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def forward(self, image, text): |
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image_features = self.encode_image(image, normalize=True) |
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text_features = self.encode_text(text, normalize=True) |
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return image_features, text_features, self.logit_scale.exp() |
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class CustomCLIP(nn.Module): |
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def __init__( |
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self, |
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embed_dim: int, |
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vision_cfg: CLIPVisionCfg, |
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text_cfg: CLIPTextCfg, |
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quick_gelu: bool = False, |
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cast_dtype: Optional[torch.dtype] = None, |
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itm_task: bool = False, |
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): |
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super().__init__() |
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self.visual = _build_vision_tower(embed_dim, vision_cfg, quick_gelu, cast_dtype) |
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self.text = _build_text_tower(embed_dim, text_cfg, quick_gelu, cast_dtype) |
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self.logit_scale = nn.Parameter(torch.ones([]) * np.log(1 / 0.07)) |
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def lock_image_tower(self, unlocked_groups=0, freeze_bn_stats=False): |
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self.visual.lock(unlocked_groups=unlocked_groups, freeze_bn_stats=freeze_bn_stats) |
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def lock_text_tower(self, unlocked_layers:int=0, freeze_layer_norm:bool=True): |
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self.text.lock(unlocked_layers, freeze_layer_norm) |
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@torch.jit.ignore |
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def set_grad_checkpointing(self, enable=True): |
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self.visual.set_grad_checkpointing(enable) |
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self.text.set_grad_checkpointing(enable) |
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@torch.jit.ignore |
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def no_weight_decay(self): |
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return {'logit_scale'} |
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def encode_image(self, image, normalize: bool = False): |
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features = self.visual(image) |
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return F.normalize(features, dim=-1) if normalize else features |
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def encode_text(self, text, normalize: bool = False): |
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features = self.text(text) |
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return F.normalize(features, dim=-1) if normalize else features |
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def forward(self, image, text): |
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image_features = self.encode_image(image, normalize=True) |
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text_features = self.encode_text(text, normalize=True) |
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return image_features, text_features, self.logit_scale.exp() |
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def convert_weights_to_lp(model: nn.Module, dtype=torch.float16): |
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"""Convert applicable model parameters to low-precision (bf16 or fp16)""" |
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def _convert_weights(l): |
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if isinstance(l, (nn.Conv1d, nn.Conv2d, nn.Linear)): |
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l.weight.data = l.weight.data.to(dtype) |
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if l.bias is not None: |
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l.bias.data = l.bias.data.to(dtype) |
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if isinstance(l, (nn.MultiheadAttention, Attention)): |
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for attr in [*[f"{s}_proj_weight" for s in ["in", "q", "k", "v"]], "in_proj_bias", "bias_k", "bias_v"]: |
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tensor = getattr(l, attr, None) |
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if tensor is not None: |
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tensor.data = tensor.data.to(dtype) |
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if isinstance(l, nn.Parameter): |
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l.data = l.data.to(dtype) |
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for name in ["text_projection", "proj"]: |
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if hasattr(l, name) and isinstance(l, nn.Parameter): |
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attr = getattr(l, name, None) |
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if attr is not None: |
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attr.data = attr.data.to(dtype) |
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model.apply(_convert_weights) |
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convert_weights_to_fp16 = convert_weights_to_lp |
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def convert_to_custom_text_state_dict(state_dict: dict): |
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if 'text_projection' in state_dict: |
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new_state_dict = {} |
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for k, v in state_dict.items(): |
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if any(k.startswith(p) for p in ( |
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'text_projection', |
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'positional_embedding', |
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'token_embedding', |
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'transformer', |
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'ln_final', |
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'logit_scale' |
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)): |
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k = 'text.' + k |
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new_state_dict[k] = v |
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return new_state_dict |
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return state_dict |
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def build_model_from_openai_state_dict( |
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state_dict: dict, |
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quick_gelu=True, |
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cast_dtype=torch.float16, |
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): |
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vit = "visual.proj" in state_dict |
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if vit: |
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vision_width = state_dict["visual.conv1.weight"].shape[0] |
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vision_layers = len( |
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[k for k in state_dict.keys() if k.startswith("visual.") and k.endswith(".attn.in_proj_weight")]) |
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vision_patch_size = state_dict["visual.conv1.weight"].shape[-1] |
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grid_size = round((state_dict["visual.positional_embedding"].shape[0] - 1) ** 0.5) |
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image_size = vision_patch_size * grid_size |
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else: |
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counts: list = [ |
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len(set(k.split(".")[2] for k in state_dict if k.startswith(f"visual.layer{b}"))) for b in [1, 2, 3, 4]] |
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vision_layers = tuple(counts) |
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vision_width = state_dict["visual.layer1.0.conv1.weight"].shape[0] |
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output_width = round((state_dict["visual.attnpool.positional_embedding"].shape[0] - 1) ** 0.5) |
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vision_patch_size = None |
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assert output_width ** 2 + 1 == state_dict["visual.attnpool.positional_embedding"].shape[0] |
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image_size = output_width * 32 |
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embed_dim = state_dict["text_projection"].shape[1] |
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context_length = state_dict["positional_embedding"].shape[0] |
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vocab_size = state_dict["token_embedding.weight"].shape[0] |
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transformer_width = state_dict["ln_final.weight"].shape[0] |
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transformer_heads = transformer_width // 64 |
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transformer_layers = len(set(k.split(".")[2] for k in state_dict if k.startswith(f"transformer.resblocks"))) |
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vision_cfg = CLIPVisionCfg( |
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layers=vision_layers, |
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width=vision_width, |
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patch_size=vision_patch_size, |
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image_size=image_size, |
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) |
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text_cfg = CLIPTextCfg( |
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context_length=context_length, |
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vocab_size=vocab_size, |
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width=transformer_width, |
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heads=transformer_heads, |
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layers=transformer_layers |
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) |
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model = CLIP( |
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embed_dim, |
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vision_cfg=vision_cfg, |
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text_cfg=text_cfg, |
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quick_gelu=quick_gelu, |
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cast_dtype=cast_dtype, |
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) |
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for key in ["input_resolution", "context_length", "vocab_size"]: |
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state_dict.pop(key, None) |
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convert_weights_to_fp16(model) |
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model.load_state_dict(state_dict) |
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return model.eval() |
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def trace_model(model, batch_size=256, device=torch.device('cpu')): |
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model.eval() |
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image_size = model.visual.image_size |
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example_images = torch.ones((batch_size, 3, image_size, image_size), device=device) |
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example_text = torch.zeros((batch_size, model.context_length), dtype=torch.int, device=device) |
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model = torch.jit.trace_module( |
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model, |
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inputs=dict( |
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forward=(example_images, example_text), |
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encode_text=(example_text,), |
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encode_image=(example_images,) |
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)) |
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model.visual.image_size = image_size |
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return model |
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