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import torch
from torch import nn as nn
from torch.nn import functional as F
def sample_with_top_k_top_p_(logits_BlV: torch.Tensor, top_k: int = 0, top_p: float = 0.0, rng=None, num_samples=1) -> torch.Tensor: # return idx, shaped (B, l)
B, l, V = logits_BlV.shape
if top_k > 0:
idx_to_remove = logits_BlV < logits_BlV.topk(top_k, largest=True, sorted=False, dim=-1)[0].amin(dim=-1, keepdim=True)
logits_BlV.masked_fill_(idx_to_remove, -torch.inf)
if top_p > 0:
sorted_logits, sorted_idx = logits_BlV.sort(dim=-1, descending=False)
sorted_idx_to_remove = sorted_logits.softmax(dim=-1).cumsum_(dim=-1) <= (1 - top_p)
sorted_idx_to_remove[..., -1:] = False
logits_BlV.masked_fill_(sorted_idx_to_remove.scatter(sorted_idx.ndim - 1, sorted_idx, sorted_idx_to_remove), -torch.inf)
# sample (have to squeeze cuz torch.multinomial can only be used for 2D tensor)
replacement = num_samples >= 0
num_samples = abs(num_samples)
return torch.multinomial(logits_BlV.softmax(dim=-1).view(-1, V), num_samples=num_samples, replacement=replacement, generator=rng).view(B, l, num_samples)
def gumbel_softmax_with_rng(logits: torch.Tensor, tau: float = 1, hard: bool = False, eps: float = 1e-10, dim: int = -1, rng: torch.Generator = None) -> torch.Tensor:
if rng is None:
return F.gumbel_softmax(logits=logits, tau=tau, hard=hard, eps=eps, dim=dim)
gumbels = (-torch.empty_like(logits, memory_format=torch.legacy_contiguous_format).exponential_(generator=rng).log())
gumbels = (logits + gumbels) / tau
y_soft = gumbels.softmax(dim)
if hard:
index = y_soft.max(dim, keepdim=True)[1]
y_hard = torch.zeros_like(logits, memory_format=torch.legacy_contiguous_format).scatter_(dim, index, 1.0)
ret = y_hard - y_soft.detach() + y_soft
else:
ret = y_soft
return ret
def drop_path(x, drop_prob: float = 0., training: bool = False, scale_by_keep: bool = True): # taken from timm
if drop_prob == 0. or not training: return x
keep_prob = 1 - drop_prob
shape = (x.shape[0],) + (1,) * (x.ndim - 1) # work with diff dim tensors, not just 2D ConvNets
random_tensor = x.new_empty(shape).bernoulli_(keep_prob)
if keep_prob > 0.0 and scale_by_keep:
random_tensor.div_(keep_prob)
return x * random_tensor
class DropPath(nn.Module): # taken from timm
def __init__(self, drop_prob: float = 0., scale_by_keep: bool = True):
super(DropPath, self).__init__()
self.drop_prob = drop_prob
self.scale_by_keep = scale_by_keep
def forward(self, x):
return drop_path(x, self.drop_prob, self.training, self.scale_by_keep)
def extra_repr(self):
return f'(drop_prob=...)'
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