# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project """A layer that samples the next tokens from the model's outputs.""" import torch import torch.nn as nn from vllm.config import LogprobsMode from vllm.utils import is_pin_memory_available from vllm.v1.outputs import LogprobsTensors, SamplerOutput from vllm.v1.sample.metadata import SamplingMetadata from vllm.v1.sample.ops.bad_words import apply_bad_words from vllm.v1.sample.ops.logprobs import batched_count_greater_than from vllm.v1.sample.ops.penalties import apply_all_penalties from vllm.v1.sample.ops.topk_topp_sampler import TopKTopPSampler _SAMPLING_EPS = 1e-5 class Sampler(nn.Module): def __init__(self, logprobs_mode: LogprobsMode = "raw_logprobs"): super().__init__() self.topk_topp_sampler = TopKTopPSampler() self.pin_memory = is_pin_memory_available() self.logprobs_mode = logprobs_mode def forward( self, logits: torch.Tensor, sampling_metadata: SamplingMetadata, ) -> SamplerOutput: # NOTE(woosuk): Use the original logits (before any penalties or # temperature scaling) for the top-k logprobs. # This is different from the V0 sampler, which uses the logits that # is used for sampling (after penalties and temperature scaling). # TODO(rob): provide option for logprobs post sampling. # See https://vllm-dev.slack.com/archives/C07UUL8E61Z/p1735907856007919 # noqa: E501 num_logprobs = sampling_metadata.max_num_logprobs if num_logprobs is not None: if self.logprobs_mode == "raw_logprobs": raw_logprobs = self.compute_logprobs(logits) elif self.logprobs_mode == "raw_logits": raw_logprobs = logits.clone() # Use float32 for the logits. logits = logits.to(torch.float32) # Apply allowed token ids. logits = self.apply_allowed_token_ids(logits, sampling_metadata) # Apply bad words exclusion. logits = self.apply_bad_words(logits, sampling_metadata) # Apply logits processors which can impact greedy sampling for processor in (sampling_metadata.logitsprocs.non_argmax_invariant): logits = processor.apply(logits) # Apply penalties (e.g., min_tokens, freq_penalties). logits = self.apply_penalties(logits, sampling_metadata) # Get the process logprobs or logits. if num_logprobs is not None: if self.logprobs_mode == "processed_logprobs": raw_logprobs = self.compute_logprobs(logits) elif self.logprobs_mode == "processed_logits": raw_logprobs = logits.clone() # Sample the next token. sampled = self.sample(logits, sampling_metadata) # Convert sampled token ids to int64 (long) type to ensure compatibility # with subsequent operations that may use these values as indices. # This conversion is necessary because FlashInfer sampling operations # return int32 (while PyTorch argmax and topk return int64). sampled = sampled.long() # Gather the logprobs of the topk and sampled token (if requested). # Get logprobs and rank tensors (if requested) logprobs_tensors = None if num_logprobs is None else \ self.gather_logprobs(raw_logprobs, num_logprobs, token_ids=sampled) # Use int32 to reduce the tensor size. sampled = sampled.to(torch.int32) # These are GPU tensors. sampler_output = SamplerOutput( # The sampled tokens are expanded to 2D tensor with shape # [num_requests, 1], where each row represents one generated # token per request. sampled_token_ids=sampled.unsqueeze(-1), logprobs_tensors=logprobs_tensors, ) return sampler_output def apply_temperature( self, logits: torch.Tensor, temp: torch.Tensor, ) -> torch.Tensor: # Use in-place division to avoid creating a new tensor. return logits.div_(temp.unsqueeze(dim=1)) def greedy_sample(self, logits: torch.Tensor) -> torch.Tensor: return logits.argmax(dim=-1).view(-1) def sample( self, logits: torch.Tensor, sampling_metadata: SamplingMetadata, ) -> torch.Tensor: """Sample logits based on sampling metadata. The various logits processing functions called in this method may update the logits tensor in-place. """ assert not (sampling_metadata.all_greedy and sampling_metadata.all_random) if sampling_metadata.all_random: greedy_sampled = None else: greedy_sampled = self.greedy_sample(logits) if sampling_metadata.all_greedy: return greedy_sampled assert sampling_metadata.temperature is not None # Apply temperature. logits = self.apply_temperature(logits, sampling_metadata.temperature) # Apply logits processors that only apply to random sampling # (argmax invariant) for processor in sampling_metadata.logitsprocs.argmax_invariant: logits = processor.apply(logits) # Apply top_k and/or top_p. random_sampled = self.topk_topp_sampler( logits, sampling_metadata.generators, sampling_metadata.top_k, sampling_metadata.top_p, ) if greedy_sampled is None: return random_sampled sampled = torch.where( sampling_metadata.temperature < _SAMPLING_EPS, greedy_sampled, random_sampled, out=greedy_sampled, # Reuse tensor ) return sampled def compute_logprobs(self, logits: torch.Tensor) -> torch.Tensor: return logits.log_softmax(dim=-1, dtype=torch.float32) def gather_logprobs( self, logprobs: torch.Tensor, num_logprobs: int, token_ids: torch.Tensor, ) -> LogprobsTensors: """ Gather logprobs for topk and sampled/prompt token. Args: logprobs: (num tokens) x (vocab) tensor num_logprobs: minimum number of logprobs to retain per token token_ids: prompt tokens (if prompt logprobs) or sampled tokens (if sampled logprobs); 1D token ID tensor with (num tokens) elements Must be int64. Returns: Top-k int indices tensor, (num tokens) x (num_logprobs + 1) Top-k float logprobs tensor, (num tokens) x (num_logprobs + 1) Sampled token rank tensor, (num tokens) """ assert token_ids.dtype == torch.int64 # Find the topK values. topk_logprobs, topk_indices = torch.topk(logprobs, num_logprobs, dim=-1) # Get with the logprob of the prompt or sampled token. token_ids = token_ids.unsqueeze(-1) token_logprobs = logprobs.gather(-1, token_ids) # Compute the ranks of the actual token. token_ranks = batched_count_greater_than(logprobs, token_logprobs) # Concatenate together with the topk. indices = torch.cat((token_ids, topk_indices), dim=1) logprobs = torch.cat((token_logprobs, topk_logprobs), dim=1) # Use int32 to reduce the tensor size. indices = indices.to(torch.int32) return LogprobsTensors(indices, logprobs, token_ranks) def apply_penalties( self, logits: torch.Tensor, sampling_metadata: SamplingMetadata, ) -> torch.Tensor: if not sampling_metadata.no_penalties: assert sampling_metadata.prompt_token_ids is not None logits = apply_all_penalties( logits, sampling_metadata.prompt_token_ids, sampling_metadata.presence_penalties, sampling_metadata.frequency_penalties, sampling_metadata.repetition_penalties, sampling_metadata.output_token_ids, ) return logits def apply_allowed_token_ids( self, logits: torch.Tensor, sampling_metadata: SamplingMetadata, ) -> torch.Tensor: if sampling_metadata.allowed_token_ids_mask is not None: logits.masked_fill_(sampling_metadata.allowed_token_ids_mask, float("-inf")) return logits def apply_bad_words( self, logits: torch.Tensor, sampling_metadata: SamplingMetadata, ) -> torch.Tensor: if sampling_metadata.bad_words_token_ids: apply_bad_words( logits, sampling_metadata.bad_words_token_ids, sampling_metadata.output_token_ids, ) return logits