# SPDX-License-Identifier: Apache-2.0 # SPDX-FileCopyrightText: Copyright contributors to the vLLM project from dataclasses import dataclass import numpy as np import torch from vllm.pooling_params import PoolingParams from vllm.tasks import PoolingTask from vllm.utils.platform_utils import is_pin_memory_available pin_memory = is_pin_memory_available() @dataclass class PoolingCursor: index: list[int] first_token_indices_gpu: torch.Tensor last_token_indices_gpu: torch.Tensor prompt_lens_cpu: torch.Tensor seq_lens_cpu: torch.Tensor num_scheduled_tokens_cpu: torch.Tensor def __getitem__(self, indices: slice): return PoolingCursor( index=self.index[indices], first_token_indices_gpu=self.first_token_indices_gpu[indices], last_token_indices_gpu=self.last_token_indices_gpu[indices], prompt_lens_cpu=self.prompt_lens_cpu[indices], seq_lens_cpu=self.seq_lens_cpu[indices], num_scheduled_tokens_cpu=self.num_scheduled_tokens_cpu[indices], ) def is_partial_prefill(self): return not torch.all(self.prompt_lens_cpu == self.num_scheduled_tokens_cpu) def is_finished(self): return self.prompt_lens_cpu == self.seq_lens_cpu class PoolingStates: def __init__(self): # for chunked prefill with ALL pooling self.hidden_states_cache: list[torch.Tensor] = [] def clean(self): self.hidden_states_cache.clear() @dataclass class PoolingMetadata: """Tensors for pooling.""" prompt_lens: torch.Tensor # CPU Tensor prompt_token_ids: torch.Tensor | None pooling_params: list[PoolingParams] pooling_states: list[PoolingStates] pooling_cursor: PoolingCursor | None = None def __post_init__(self) -> None: pooling_params = self.pooling_params tasks: list[PoolingTask] = [ task for pooling_param in pooling_params if (task := pooling_param.task) is not None ] assert len(pooling_params) == len(tasks) self.tasks = tasks def __getitem__(self, indices: slice): return PoolingMetadata( prompt_lens=self.prompt_lens[indices], prompt_token_ids=None if self.prompt_token_ids is None else self.prompt_token_ids[indices], pooling_params=self.pooling_params[indices], pooling_states=self.pooling_states[indices], pooling_cursor=None if self.pooling_cursor is None else self.pooling_cursor[indices], ) def get_prompt_token_ids(self) -> list[torch.Tensor]: prompt_token_ids = self.prompt_token_ids assert prompt_token_ids is not None, ( "Please set `requires_token_ids=True` in `get_pooling_updates`" ) return [prompt_token_ids[i, :num] for i, num in enumerate(self.prompt_lens)] def get_pooling_cursor(self) -> PoolingCursor: pooling_cursor = self.pooling_cursor assert pooling_cursor is not None, "Should call `build_pooling_cursor` first" return pooling_cursor def build_pooling_cursor( self, num_scheduled_tokens_np: np.ndarray, seq_lens_cpu: torch.Tensor, device: torch.device, ): n_seq = len(num_scheduled_tokens_np) prompt_lens = self.prompt_lens assert len(prompt_lens) == n_seq index = list(range(n_seq)) num_scheduled_tokens_cpu = torch.from_numpy(num_scheduled_tokens_np) cumsum = torch.zeros( n_seq + 1, dtype=torch.int64, pin_memory=pin_memory, device="cpu" ) torch.cumsum(num_scheduled_tokens_cpu, dim=0, out=cumsum[1:]) cumsum = cumsum.to(device, non_blocking=True) self.pooling_cursor = PoolingCursor( index=index, first_token_indices_gpu=cumsum[:n_seq], last_token_indices_gpu=cumsum[1:] - 1, prompt_lens_cpu=prompt_lens, seq_lens_cpu=seq_lens_cpu, num_scheduled_tokens_cpu=num_scheduled_tokens_cpu, )