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import gzip |
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import html |
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import io |
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import math |
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from functools import lru_cache |
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from typing import Callable, List, Optional |
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import ftfy |
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import numpy as np |
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import regex as re |
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import torch |
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import torch.nn as nn |
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from iopath.common.file_io import g_pathmgr |
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from timm.models.layers import trunc_normal_ |
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from .helpers import cast_if_src_dtype, VerboseNNModule |
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def get_sinusoid_encoding_table(n_position, d_hid): |
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"""Sinusoid position encoding table""" |
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def get_position_angle_vec(position): |
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return [ |
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position / np.power(10000, 2 * (hid_j // 2) / d_hid) |
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for hid_j in range(d_hid) |
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] |
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sinusoid_table = np.array( |
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[get_position_angle_vec(pos_i) for pos_i in range(n_position)] |
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) |
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sinusoid_table[:, 0::2] = np.sin(sinusoid_table[:, 0::2]) |
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sinusoid_table[:, 1::2] = np.cos(sinusoid_table[:, 1::2]) |
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return torch.FloatTensor(sinusoid_table).unsqueeze(0) |
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def interpolate_pos_encoding_2d(target_spatial_size, pos_embed): |
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N = pos_embed.shape[1] |
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if N == target_spatial_size: |
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return pos_embed |
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dim = pos_embed.shape[-1] |
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pos_embed, updated = cast_if_src_dtype(pos_embed, torch.bfloat16, torch.float32) |
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pos_embed = nn.functional.interpolate( |
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pos_embed.reshape(1, int(math.sqrt(N)), int(math.sqrt(N)), dim).permute( |
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0, 3, 1, 2 |
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), |
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scale_factor=math.sqrt(target_spatial_size / N), |
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mode="bicubic", |
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) |
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if updated: |
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pos_embed, _ = cast_if_src_dtype(pos_embed, torch.float32, torch.bfloat16) |
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pos_embed = pos_embed.permute(0, 2, 3, 1).view(1, -1, dim) |
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return pos_embed |
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|
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def interpolate_pos_encoding( |
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npatch_per_img, |
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pos_embed, |
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patches_layout, |
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input_shape=None, |
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first_patch_idx=1, |
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): |
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assert first_patch_idx == 0 or first_patch_idx == 1, "there is 1 CLS token or none" |
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N = pos_embed.shape[1] - first_patch_idx |
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if npatch_per_img == N: |
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return pos_embed |
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assert ( |
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patches_layout[-1] == patches_layout[-2] |
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), "Interpolation of pos embed not supported for non-square layouts" |
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class_emb = pos_embed[:, :first_patch_idx] |
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pos_embed = pos_embed[:, first_patch_idx:] |
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if input_shape is None or patches_layout[0] == 1: |
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pos_embed = interpolate_pos_encoding_2d(npatch_per_img, pos_embed) |
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elif patches_layout[0] > 1: |
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assert len(input_shape) == 4, "temporal interpolation not supported" |
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num_frames = patches_layout[0] |
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num_spatial_tokens = patches_layout[1] * patches_layout[2] |
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pos_embed = pos_embed.view(1, num_frames, num_spatial_tokens, -1) |
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pos_embed = interpolate_pos_encoding_2d( |
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npatch_per_img, pos_embed[0, 0, ...].unsqueeze(0) |
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) |
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else: |
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raise ValueError("This type of interpolation isn't implemented") |
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return torch.cat((class_emb, pos_embed), dim=1) |
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def _get_pos_embedding( |
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npatch_per_img, |
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pos_embed, |
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patches_layout, |
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input_shape, |
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first_patch_idx=1, |
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): |
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pos_embed = interpolate_pos_encoding( |
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npatch_per_img, |
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pos_embed, |
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patches_layout, |
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input_shape=input_shape, |
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first_patch_idx=first_patch_idx, |
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) |
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return pos_embed |
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class PatchEmbedGeneric(nn.Module): |
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""" |
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PatchEmbed from Hydra |
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""" |
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def __init__(self, proj_stem, norm_layer: Optional[nn.Module] = None): |
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super().__init__() |
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if len(proj_stem) > 1: |
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self.proj = nn.Sequential(*proj_stem) |
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else: |
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self.proj = proj_stem[0] |
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self.norm_layer = norm_layer |
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def get_patch_layout(self, img_size): |
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with torch.no_grad(): |
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dummy_img = torch.zeros( |
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[ |
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1, |
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] |
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+ img_size |
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) |
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dummy_out = self.proj(dummy_img) |
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embed_dim = dummy_out.shape[1] |
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patches_layout = tuple(dummy_out.shape[2:]) |
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num_patches = np.prod(patches_layout) |
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return patches_layout, num_patches, embed_dim |
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def forward(self, x): |
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x = self.proj(x) |
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x = x.flatten(2).transpose(1, 2) |
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if self.norm_layer is not None: |
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x = self.norm_layer(x) |
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return x |
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class SpatioTemporalPosEmbeddingHelper(VerboseNNModule): |
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def __init__( |
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self, |
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patches_layout: List, |
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num_patches: int, |
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num_cls_tokens: int, |
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embed_dim: int, |
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learnable: bool, |
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) -> None: |
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super().__init__() |
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self.num_cls_tokens = num_cls_tokens |
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self.patches_layout = patches_layout |
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self.num_patches = num_patches |
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self.num_tokens = num_cls_tokens + num_patches |
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self.learnable = learnable |
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if self.learnable: |
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self.pos_embed = nn.Parameter(torch.zeros(1, self.num_tokens, embed_dim)) |
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trunc_normal_(self.pos_embed, std=0.02) |
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else: |
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self.register_buffer( |
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"pos_embed", get_sinusoid_encoding_table(self.num_tokens, embed_dim) |
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) |
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def get_pos_embedding(self, vision_input, all_vision_tokens): |
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input_shape = vision_input.shape |
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pos_embed = _get_pos_embedding( |
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all_vision_tokens.size(1) - self.num_cls_tokens, |
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pos_embed=self.pos_embed, |
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patches_layout=self.patches_layout, |
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input_shape=input_shape, |
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first_patch_idx=self.num_cls_tokens, |
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) |
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return pos_embed |
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class RGBDTPreprocessor(VerboseNNModule): |
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def __init__( |
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self, |
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rgbt_stem: PatchEmbedGeneric, |
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depth_stem: PatchEmbedGeneric, |
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img_size: List = (3, 224, 224), |
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num_cls_tokens: int = 1, |
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pos_embed_fn: Callable = None, |
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use_type_embed: bool = False, |
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init_param_style: str = "openclip", |
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) -> None: |
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super().__init__() |
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stem = rgbt_stem if rgbt_stem is not None else depth_stem |
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( |
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self.patches_layout, |
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self.num_patches, |
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self.embed_dim, |
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) = stem.get_patch_layout(img_size) |
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self.rgbt_stem = rgbt_stem |
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self.depth_stem = depth_stem |
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self.use_pos_embed = pos_embed_fn is not None |
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self.use_type_embed = use_type_embed |
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self.num_cls_tokens = num_cls_tokens |
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if self.use_pos_embed: |
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self.pos_embedding_helper = pos_embed_fn( |
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patches_layout=self.patches_layout, |
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num_cls_tokens=num_cls_tokens, |
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num_patches=self.num_patches, |
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embed_dim=self.embed_dim, |
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) |
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if self.num_cls_tokens > 0: |
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self.cls_token = nn.Parameter( |
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torch.zeros(1, self.num_cls_tokens, self.embed_dim) |
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) |
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if self.use_type_embed: |
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self.type_embed = nn.Parameter(torch.zeros(1, 1, self.embed_dim)) |
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self.init_parameters(init_param_style) |
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@torch.no_grad() |
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def init_parameters(self, init_param_style): |
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if init_param_style == "openclip": |
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scale = self.embed_dim**-0.5 |
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if self.use_pos_embed: |
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nn.init.normal_(self.pos_embedding_helper.pos_embed) |
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self.pos_embedding_helper.pos_embed *= scale |
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if self.num_cls_tokens > 0: |
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nn.init.normal_(self.cls_token) |
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self.cls_token *= scale |
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elif init_param_style == "vit": |
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self.cls_token.data.fill_(0) |
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else: |
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raise ValueError(f"Unknown init {init_param_style}") |
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if self.use_type_embed: |
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nn.init.normal_(self.type_embed) |
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def tokenize_input_and_cls_pos(self, input, stem, mask): |
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tokens = stem(input) |
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assert tokens.ndim == 3 |
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assert tokens.shape[2] == self.embed_dim |
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B = tokens.shape[0] |
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if self.num_cls_tokens > 0: |
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class_tokens = self.cls_token.expand( |
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B, -1, -1 |
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) |
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tokens = torch.cat((class_tokens, tokens), dim=1) |
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if self.use_pos_embed: |
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pos_embed = self.pos_embedding_helper.get_pos_embedding(input, tokens) |
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tokens = tokens + pos_embed |
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if self.use_type_embed: |
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tokens = tokens + self.type_embed.expand(B, -1, -1) |
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return tokens |
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def forward(self, vision=None, depth=None, patch_mask=None): |
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if patch_mask is not None: |
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raise NotImplementedError() |
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if vision is not None: |
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vision_tokens = self.tokenize_input_and_cls_pos( |
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vision, self.rgbt_stem, patch_mask |
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) |
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if depth is not None: |
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depth_tokens = self.tokenize_input_and_cls_pos( |
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depth, self.depth_stem, patch_mask |
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) |
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if vision is not None and depth is not None: |
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final_tokens = vision_tokens + depth_tokens |
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else: |
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final_tokens = vision_tokens if vision is not None else depth_tokens |
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return_dict = { |
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"trunk": { |
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"tokens": final_tokens, |
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}, |
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"head": {}, |
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} |
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return return_dict |
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class AudioPreprocessor(RGBDTPreprocessor): |
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def __init__(self, audio_stem: PatchEmbedGeneric, **kwargs) -> None: |
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super().__init__(rgbt_stem=audio_stem, depth_stem=None, **kwargs) |
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def forward(self, audio=None): |
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return super().forward(vision=audio) |
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class ThermalPreprocessor(RGBDTPreprocessor): |
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def __init__(self, thermal_stem: PatchEmbedGeneric, **kwargs) -> None: |
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super().__init__(rgbt_stem=thermal_stem, depth_stem=None, **kwargs) |
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def forward(self, thermal=None): |
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return super().forward(vision=thermal) |
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def build_causal_attention_mask(context_length): |
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mask = torch.empty(context_length, context_length, requires_grad=False) |
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mask.fill_(float("-inf")) |
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mask.triu_(1) |
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return mask |
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class TextPreprocessor(VerboseNNModule): |
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def __init__( |
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self, |
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vocab_size: int, |
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context_length: int, |
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embed_dim: int, |
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causal_masking: bool, |
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supply_seq_len_to_head: bool = True, |
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num_cls_tokens: int = 0, |
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init_param_style: str = "openclip", |
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) -> None: |
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super().__init__() |
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self.vocab_size = vocab_size |
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self.context_length = context_length |
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self.token_embedding = nn.Embedding(vocab_size, embed_dim) |
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self.pos_embed = nn.Parameter( |
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torch.empty(1, self.context_length + num_cls_tokens, embed_dim) |
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) |
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self.causal_masking = causal_masking |
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if self.causal_masking: |
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mask = build_causal_attention_mask(self.context_length) |
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self.register_buffer("mask", mask) |
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self.supply_seq_len_to_head = supply_seq_len_to_head |
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self.num_cls_tokens = num_cls_tokens |
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self.embed_dim = embed_dim |
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if num_cls_tokens > 0: |
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assert self.causal_masking is False, "Masking + CLS token isn't implemented" |
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self.cls_token = nn.Parameter( |
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torch.zeros(1, self.num_cls_tokens, embed_dim) |
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) |
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self.init_parameters(init_param_style) |
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@torch.no_grad() |
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def init_parameters(self, init_param_style="openclip"): |
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|
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nn.init.normal_(self.token_embedding.weight, std=0.02) |
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nn.init.normal_(self.pos_embed, std=0.01) |
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if init_param_style == "openclip": |
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scale = self.embed_dim**-0.5 |
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if self.num_cls_tokens > 0: |
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nn.init.normal_(self.cls_token) |
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self.cls_token *= scale |
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elif init_param_style == "vit": |
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self.cls_token.data.fill_(0) |
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else: |
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raise ValueError(f"Unknown init {init_param_style}") |
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def forward(self, text): |
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|
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text_tokens = self.token_embedding(text) |
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if self.num_cls_tokens > 0: |
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B = text_tokens.shape[0] |
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class_tokens = self.cls_token.expand( |
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B, -1, -1 |
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) |
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text_tokens = torch.cat((class_tokens, text_tokens), dim=1) |
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text_tokens = text_tokens + self.pos_embed |
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return_dict = { |
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"trunk": { |
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"tokens": text_tokens, |
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}, |
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"head": {}, |
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} |
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if self.supply_seq_len_to_head: |
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text_lengths = text.argmax(dim=-1) |
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return_dict["head"] = { |
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"seq_len": text_lengths, |
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} |
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if self.causal_masking: |
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return_dict["trunk"].update({"attn_mask": self.mask}) |
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return return_dict |
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class Im2Video(nn.Module): |
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"""Convert an image into a trivial video.""" |
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def __init__(self, time_dim=2): |
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super().__init__() |
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self.time_dim = time_dim |
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def forward(self, x): |
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if x.ndim == 4: |
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|
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return x.unsqueeze(self.time_dim) |
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elif x.ndim == 5: |
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return x |
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else: |
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raise ValueError(f"Dimension incorrect {x.shape}") |
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class PadIm2Video(Im2Video): |
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def __init__(self, ntimes, pad_type, time_dim=2): |
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super().__init__(time_dim=time_dim) |
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assert ntimes > 0 |
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assert pad_type in ["zero", "repeat"] |
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self.ntimes = ntimes |
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self.pad_type = pad_type |
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def forward(self, x): |
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x = super().forward(x) |
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if x.shape[self.time_dim] == 1: |
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if self.pad_type == "repeat": |
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new_shape = [1] * len(x.shape) |
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new_shape[self.time_dim] = self.ntimes |
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x = x.repeat(new_shape) |
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elif self.pad_type == "zero": |
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padarg = [0, 0] * len(x.shape) |
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padarg[2 * self.time_dim + 1] = self.ntimes - x.shape[self.time_dim] |
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x = nn.functional.pad(x, padarg) |
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return x |
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@lru_cache() |
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def bytes_to_unicode(): |
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""" |
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Returns list of utf-8 byte and a corresponding list of unicode strings. |
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The reversible bpe codes work on unicode strings. |
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This means you need a large # of unicode characters in your vocab if you want to avoid UNKs. |
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When you're at something like a 10B token dataset you end up needing around 5K for decent coverage. |
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This is a signficant percentage of your normal, say, 32K bpe vocab. |
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To avoid that, we want lookup tables between utf-8 bytes and unicode strings. |
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And avoids mapping to whitespace/control characters the bpe code barfs on. |
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""" |
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bs = ( |
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list(range(ord("!"), ord("~") + 1)) |
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+ list(range(ord("¡"), ord("¬") + 1)) |
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+ list(range(ord("®"), ord("ÿ") + 1)) |
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) |
|
cs = bs[:] |
|
n = 0 |
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for b in range(2**8): |
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if b not in bs: |
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bs.append(b) |
|
cs.append(2**8 + n) |
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n += 1 |
|
cs = [chr(n) for n in cs] |
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return dict(zip(bs, cs)) |
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|
|
|
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def get_pairs(word): |
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"""Return set of symbol pairs in a word. |
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Word is represented as tuple of symbols (symbols being variable-length strings). |
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""" |
|
pairs = set() |
|
prev_char = word[0] |
|
for char in word[1:]: |
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pairs.add((prev_char, char)) |
|
prev_char = char |
|
return pairs |
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|
|
|
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def basic_clean(text): |
|
text = ftfy.fix_text(text) |
|
text = html.unescape(html.unescape(text)) |
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return text.strip() |
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|
|
|
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def whitespace_clean(text): |
|
text = re.sub(r"\s+", " ", text) |
|
text = text.strip() |
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return text |
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|
|
|
|
class SimpleTokenizer(object): |
|
def __init__(self, bpe_path: str, context_length=77): |
|
self.byte_encoder = bytes_to_unicode() |
|
self.byte_decoder = {v: k for k, v in self.byte_encoder.items()} |
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|
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with g_pathmgr.open(bpe_path, "rb") as fh: |
|
bpe_bytes = io.BytesIO(fh.read()) |
|
merges = gzip.open(bpe_bytes).read().decode("utf-8").split("\n") |
|
merges = merges[1 : 49152 - 256 - 2 + 1] |
|
merges = [tuple(merge.split()) for merge in merges] |
|
vocab = list(bytes_to_unicode().values()) |
|
vocab = vocab + [v + "</w>" for v in vocab] |
|
for merge in merges: |
|
vocab.append("".join(merge)) |
|
vocab.extend(["<|startoftext|>", "<|endoftext|>"]) |
|
self.encoder = dict(zip(vocab, range(len(vocab)))) |
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self.decoder = {v: k for k, v in self.encoder.items()} |
|
self.bpe_ranks = dict(zip(merges, range(len(merges)))) |
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self.cache = { |
|
"<|startoftext|>": "<|startoftext|>", |
|
"<|endoftext|>": "<|endoftext|>", |
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} |
|
self.pat = re.compile( |
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r"""<\|startoftext\|>|<\|endoftext\|>|'s|'t|'re|'ve|'m|'ll|'d|[\p{L}]+|[\p{N}]|[^\s\p{L}\p{N}]+""", |
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re.IGNORECASE, |
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) |
|
self.context_length = context_length |
|
|
|
def bpe(self, token): |
|
if token in self.cache: |
|
return self.cache[token] |
|
word = tuple(token[:-1]) + (token[-1] + "</w>",) |
|
pairs = get_pairs(word) |
|
|
|
if not pairs: |
|
return token + "</w>" |
|
|
|
while True: |
|
bigram = min(pairs, key=lambda pair: self.bpe_ranks.get(pair, float("inf"))) |
|
if bigram not in self.bpe_ranks: |
|
break |
|
first, second = bigram |
|
new_word = [] |
|
i = 0 |
|
while i < len(word): |
|
try: |
|
j = word.index(first, i) |
|
new_word.extend(word[i:j]) |
|
i = j |
|
except: |
|
new_word.extend(word[i:]) |
|
break |
|
|
|
if word[i] == first and i < len(word) - 1 and word[i + 1] == second: |
|
new_word.append(first + second) |
|
i += 2 |
|
else: |
|
new_word.append(word[i]) |
|
i += 1 |
|
new_word = tuple(new_word) |
|
word = new_word |
|
if len(word) == 1: |
|
break |
|
else: |
|
pairs = get_pairs(word) |
|
word = " ".join(word) |
|
self.cache[token] = word |
|
return word |
|
|
|
def encode(self, text): |
|
bpe_tokens = [] |
|
text = whitespace_clean(basic_clean(text)).lower() |
|
for token in re.findall(self.pat, text): |
|
token = "".join(self.byte_encoder[b] for b in token.encode("utf-8")) |
|
bpe_tokens.extend( |
|
self.encoder[bpe_token] for bpe_token in self.bpe(token).split(" ") |
|
) |
|
return bpe_tokens |
|
|
|
def decode(self, tokens): |
|
text = "".join([self.decoder[token] for token in tokens]) |
|
text = ( |
|
bytearray([self.byte_decoder[c] for c in text]) |
|
.decode("utf-8", errors="replace") |
|
.replace("</w>", " ") |
|
) |
|
return text |
|
|
|
def __call__(self, texts, context_length=None): |
|
if not context_length: |
|
context_length = self.context_length |
|
|
|
if isinstance(texts, str): |
|
texts = [texts] |
|
|
|
sot_token = self.encoder["<|startoftext|>"] |
|
eot_token = self.encoder["<|endoftext|>"] |
|
all_tokens = [[sot_token] + self.encode(text) + [eot_token] for text in texts] |
|
result = torch.zeros(len(all_tokens), context_length, dtype=torch.long) |
|
|
|
for i, tokens in enumerate(all_tokens): |
|
tokens = tokens[:context_length] |
|
result[i, : len(tokens)] = torch.tensor(tokens) |
|
|
|
if len(result) == 1: |
|
return result[0] |
|
return result |
|
|
|
|
|
class IMUPreprocessor(VerboseNNModule): |
|
def __init__( |
|
self, |
|
kernel_size: int, |
|
imu_stem: PatchEmbedGeneric, |
|
embed_dim: int, |
|
img_size: List = (6, 2000), |
|
num_cls_tokens: int = 1, |
|
pos_embed_fn: Callable = None, |
|
init_param_style: str = "openclip", |
|
) -> None: |
|
super().__init__() |
|
stem = imu_stem |
|
self.imu_stem = imu_stem |
|
self.embed_dim = embed_dim |
|
self.use_pos_embed = pos_embed_fn is not None |
|
self.num_cls_tokens = num_cls_tokens |
|
self.kernel_size = kernel_size |
|
self.pos_embed = nn.Parameter( |
|
torch.empty(1, (img_size[1] // kernel_size) + num_cls_tokens, embed_dim) |
|
) |
|
|
|
if self.num_cls_tokens > 0: |
|
self.cls_token = nn.Parameter( |
|
torch.zeros(1, self.num_cls_tokens, self.embed_dim) |
|
) |
|
|
|
self.init_parameters(init_param_style) |
|
|
|
@torch.no_grad() |
|
def init_parameters(self, init_param_style): |
|
nn.init.normal_(self.pos_embed, std=0.01) |
|
|
|
if init_param_style == "openclip": |
|
|
|
scale = self.embed_dim**-0.5 |
|
|
|
if self.num_cls_tokens > 0: |
|
nn.init.normal_(self.cls_token) |
|
self.cls_token *= scale |
|
elif init_param_style == "vit": |
|
self.cls_token.data.fill_(0) |
|
else: |
|
raise ValueError(f"Unknown init {init_param_style}") |
|
|
|
def tokenize_input_and_cls_pos(self, input, stem): |
|
|
|
tokens = stem.norm_layer(stem.proj(input)) |
|
assert tokens.ndim == 3 |
|
assert tokens.shape[2] == self.embed_dim |
|
B = tokens.shape[0] |
|
if self.num_cls_tokens > 0: |
|
class_tokens = self.cls_token.expand( |
|
B, -1, -1 |
|
) |
|
tokens = torch.cat((class_tokens, tokens), dim=1) |
|
if self.use_pos_embed: |
|
tokens = tokens + self.pos_embed |
|
return tokens |
|
|
|
def forward(self, imu): |
|
|
|
imu = imu.unfold( |
|
-1, |
|
self.kernel_size, |
|
self.kernel_size, |
|
).permute(0, 2, 1, 3) |
|
imu = imu.reshape(imu.size(0), imu.size(1), -1) |
|
|
|
imu_tokens = self.tokenize_input_and_cls_pos( |
|
imu, |
|
self.imu_stem, |
|
) |
|
|
|
return_dict = { |
|
"trunk": { |
|
"tokens": imu_tokens, |
|
}, |
|
"head": {}, |
|
} |
|
return return_dict |
|
|