151 lines
5.2 KiB
Python
151 lines
5.2 KiB
Python
# Originally from Microsoft Corporation.
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# Licensed under the MIT License.
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""" Wrapper for ngram_repeat_block cuda extension """
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import torch
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from torch import nn
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import math
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from typing import Dict, List, Optional
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import warnings
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try:
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from fairseq import ngram_repeat_block_cuda
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EXTENSION_BUILT = True
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except ImportError:
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EXTENSION_BUILT = False
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def is_cuda_extension_usable() -> bool:
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"""Check whether ngram_repeat_block_cuda is built properly"""
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if not EXTENSION_BUILT or not torch.cuda.is_available():
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return False
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bsz = 2
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tokens = torch.tensor([[4, 4, 3, 2], [1, 2, 3, 4]], dtype=torch.long, device="cuda")
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lprobs = torch.rand((8, 12), device="cuda")
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try:
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outputs = ngram_repeat_block_cuda.forward(tokens, lprobs, bsz, 3, 4, 3)
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outputs = outputs + 4 # This line breaks if the extension is built incorrectly.
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return True
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except RuntimeError:
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warnings.warn(
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"NGramRepeatBlock extension must be rebuilt."
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'Run TORCH_CUDA_ARCH_LIST="6.0;6.1;7.0" python setup.py build_ext --inplace'
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)
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return False
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class NGramRepeatBlock(nn.Module):
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""" Wrapper class for calling ngram_repeat_block cuda extension """
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def __init__(self, no_repeat_ngram_size: int, use_extension: bool = True):
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super().__init__()
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self.use_extension = is_cuda_extension_usable() if use_extension else False
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self.no_repeat_ngram_size = no_repeat_ngram_size
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def reset_parameters(self):
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pass
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@torch.jit.unused
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def call_cuda_extension(
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self,
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tokens,
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lprobs,
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bsz: int,
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beam_size: int,
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step: int,
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):
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return ngram_repeat_block_cuda.forward(
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tokens, lprobs, bsz, step, beam_size, self.no_repeat_ngram_size
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)
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def forward(
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self,
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tokens,
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lprobs,
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bsz: int,
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beam_size: int,
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step: int,
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):
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"""
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Args:
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tokens(Tensor): Input tokens(Bsz*beam, seq_len)
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lprobs(Tensor): likelihood probability,
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Expected to be updated in place.(Bsz*beam, vocab_size)
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bsz(int): batch size
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step(int): current step
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beam_size(int): beam size
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no_repeat_ngram_size(int): Ngram size
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"""
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msg = f"expected {bsz *beam_size} got"
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assert tokens.size(0) == bsz * beam_size, f"{msg} {tokens.size(0)}"
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assert lprobs.size(0) == bsz * beam_size, f"{msg} {lprobs.size(0)}"
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if self.use_extension:
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return self.call_cuda_extension(tokens, lprobs, bsz, beam_size, step)
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else:
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return self._no_repeat_ngram(
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tokens,
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lprobs,
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bsz,
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beam_size,
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step,
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)
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def _no_repeat_ngram(self, tokens, lprobs, bsz: int, beam_size: int, step: int):
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"""For each hypothesis generate a list of previous ngrams and set associated lprobs to -inf"""
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gen_ngrams: List[Dict[str, List[int]]] = [
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torch.jit.annotate(Dict[str, List[int]], {})
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for bbsz_idx in range(bsz * beam_size)
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]
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cpu_tokens = tokens.cpu()
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for bbsz_idx in range(bsz * beam_size):
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gen_tokens: List[int] = cpu_tokens[bbsz_idx].tolist()
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for ngram in self.transpose_list(
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[gen_tokens[i:] for i in range(self.no_repeat_ngram_size)]
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):
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key = ",".join([str(x) for x in ngram[:-1]])
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gen_ngrams[bbsz_idx][key] = gen_ngrams[bbsz_idx].get(
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key, torch.jit.annotate(List[int], [])
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) + [ngram[-1]]
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if step + 2 - self.no_repeat_ngram_size >= 0:
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# no banned tokens if we haven't generated no_repeat_ngram_size tokens yet
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banned_tokens = [
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self.calculate_banned_tokens(
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tokens, step, gen_ngrams, self.no_repeat_ngram_size, bbsz_idx
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)
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for bbsz_idx in range(bsz * beam_size)
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]
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else:
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banned_tokens = [
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torch.jit.annotate(List[int], []) for bbsz_idx in range(bsz * beam_size)
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]
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for bbsz_idx in range(bsz * beam_size):
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lprobs[bbsz_idx][
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torch.tensor(banned_tokens[bbsz_idx]).long()
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] = torch.tensor(-math.inf).to(lprobs)
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return lprobs
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@staticmethod
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def calculate_banned_tokens(
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tokens,
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step: int,
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gen_ngrams: List[Dict[str, List[int]]],
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no_repeat_ngram_size: int,
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bbsz_idx: int,
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):
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tokens_list: List[int] = tokens[
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bbsz_idx, step + 2 - no_repeat_ngram_size : step + 1
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].tolist()
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# before decoding the next token, prevent decoding of ngrams that have already appeared
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ngram_index = ",".join([str(x) for x in tokens_list])
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return gen_ngrams[bbsz_idx].get(ngram_index, torch.jit.annotate(List[int], []))
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@staticmethod
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def transpose_list(l: List[List[int]]):
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# GeneratorExp aren't supported in TS so ignoring the lint
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min_len = min([len(x) for x in l]) # noqa
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l2 = [[row[i] for row in l] for i in range(min_len)]
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return l2
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