vllm.v1.worker.tpu_input_batch

_SAMPLING_EPS module-attribute

_SAMPLING_EPS = 1e-05

InputBatch

Source code in vllm/v1/worker/tpu_input_batch.py

class InputBatch:

    def __init__(
            self,
            max_num_reqs: int,
            max_model_len: int,
            max_num_batched_tokens: int,
            device: torch.device,
            pin_memory: bool,
            vocab_size: int,
            block_sizes: list[int],  # The block_size of each kv cache group
    ):
        self.max_num_reqs = max_num_reqs
        self.max_model_len = max_model_len
        self.max_num_batched_tokens = max_num_batched_tokens
        self.device = device
        self.pin_memory = pin_memory
        self.vocab_size = vocab_size

        self._req_ids: list[Optional[str]] = []
        self.req_id_to_index: dict[str, int] = {}

        # TODO(woosuk): This buffer could be too large if max_model_len is big.
        # Find a way to reduce the CPU memory usage.
        # This buffer is not directly transferred to the GPU, so it does not
        # need to be pinned.
        self.token_ids_cpu_tensor = torch.zeros(
            (max_num_reqs, max_model_len),
            device="cpu",
            dtype=torch.int32,
            pin_memory=False,
        )
        self.token_ids_cpu = self.token_ids_cpu_tensor.numpy()
        self.num_tokens = np.zeros(max_num_reqs, dtype=np.int32)
        self.num_tokens_no_spec = np.zeros(max_num_reqs, dtype=np.int32)
        self.num_prompt_tokens = np.zeros(max_num_reqs, dtype=np.int32)
        self.num_computed_tokens_cpu_tensor = torch.zeros(
            (max_num_reqs, ),
            device="cpu",
            dtype=torch.int32,
            pin_memory=pin_memory,
        )
        self.num_computed_tokens_cpu = \
            self.num_computed_tokens_cpu_tensor.numpy()

        # Block table.
        self.block_table = MultiGroupBlockTable(
            max_num_reqs=max_num_reqs,
            max_model_len=max_model_len,
            max_num_batched_tokens=max_num_batched_tokens,
            pin_memory=pin_memory,
            device=device,
            block_sizes=block_sizes,
        )

        # Sampling-related.
        self.temperature = torch.empty((max_num_reqs, ),
                                       dtype=torch.float32,
                                       device=device)
        self.temperature_cpu_tensor = torch.empty((max_num_reqs, ),
                                                  dtype=torch.float32,
                                                  device="cpu",
                                                  pin_memory=pin_memory)
        self.temperature_cpu = self.temperature_cpu_tensor.numpy()
        self.greedy_reqs: set[str] = set()
        self.random_reqs: set[str] = set()

        self.top_p = torch.empty((max_num_reqs, ),
                                 dtype=torch.float32,
                                 device=device)
        self.top_p_cpu_tensor = torch.empty((max_num_reqs, ),
                                            dtype=torch.float32,
                                            device="cpu",
                                            pin_memory=pin_memory)
        self.top_p_cpu = self.top_p_cpu_tensor.numpy()
        self.top_p_reqs: set[str] = set()

        self.top_k = torch.empty((max_num_reqs, ),
                                 dtype=torch.int32,
                                 device=device)
        self.top_k_cpu_tensor = torch.empty((max_num_reqs, ),
                                            dtype=torch.int32,
                                            device="cpu",
                                            pin_memory=pin_memory)
        self.top_k_cpu = self.top_k_cpu_tensor.numpy()
        self.top_k_reqs: set[str] = set()

        self.min_p = torch.empty((max_num_reqs, ),
                                 dtype=torch.float32,
                                 device=device)
        self.min_p_cpu_tensor = torch.empty((max_num_reqs, ),
                                            dtype=torch.float32,
                                            device="cpu",
                                            pin_memory=pin_memory)
        self.min_p_cpu = self.min_p_cpu_tensor.numpy()
        self.min_p_reqs: set[str] = set()

        # Frequency penalty related data structures
        self.frequency_penalties = torch.empty((max_num_reqs, ),
                                               dtype=torch.float,
                                               device=device)
        self.frequency_penalties_cpu_tensor = torch.empty(
            (max_num_reqs, ),
            dtype=torch.float,
            device="cpu",
            pin_memory=pin_memory)
        self.frequency_penalties_cpu = \
            self.frequency_penalties_cpu_tensor.numpy()
        self.frequency_penalties_reqs: set[str] = set()

        # Presence penalty related data structures
        self.presence_penalties = torch.empty((max_num_reqs, ),
                                              dtype=torch.float,
                                              device=device)
        self.presence_penalties_cpu_tensor = torch.empty((max_num_reqs, ),
                                                         dtype=torch.float,
                                                         device="cpu",
                                                         pin_memory=pin_memory)
        self.presence_penalties_cpu = self.presence_penalties_cpu_tensor.numpy(
        )
        self.presence_penalties_reqs: set[str] = set()

        # Repetition penalty related data structures
        self.repetition_penalties = torch.empty((max_num_reqs, ),
                                                dtype=torch.float,
                                                device=device)
        self.repetition_penalties_cpu_tensor = torch.empty(
            (max_num_reqs, ),
            dtype=torch.float,
            device="cpu",
            pin_memory=pin_memory)
        self.repetition_penalties_cpu = \
            self.repetition_penalties_cpu_tensor.numpy()
        self.repetition_penalties_reqs: set[str] = set()

        # req_index -> (min_tokens, stop_token_ids)
        self.min_tokens: dict[int, tuple[int, set[int]]] = {}

        # lora related
        self.request_lora_mapping = np.zeros((self.max_num_reqs, ),
                                             dtype=np.int32)
        self.lora_id_to_request_ids: dict[int, set[str]] = {}
        self.lora_id_to_lora_request: dict[int, LoRARequest] = {}

        # req_index -> generator
        # NOTE(woosuk): The indices of the requests that do not have their own
        # generator should not be included in the dictionary.
        self.generators: dict[int, torch.Generator] = {}

        self.num_logprobs: dict[str, int] = {}
        # NOTE(rob): num_prompt_logprobs only includes reqs
        # that are currently in the prefill phase.
        self.num_prompt_logprobs: dict[str, int] = {}

        # To accumulate prompt logprobs tensor chunks across prefill steps.
        self.in_progress_prompt_logprobs_cpu: dict[str, LogprobsTensors] = {}

        self.logit_bias: list[Optional[dict[int,
                                            float]]] = [None] * max_num_reqs
        self.has_allowed_token_ids: set[str] = set()
        # NOTE(lufang): In the mask tensor, if the corresponding token allowed,
        # the value is False. Since we use masked_fill_ to set -inf.
        self.allowed_token_ids_mask: Optional[torch.Tensor] = None
        self.allowed_token_ids_mask_cpu_tensor: Optional[torch.Tensor] = None

        # req_index -> bad_words_token_ids
        self.bad_words_token_ids: dict[int, list[list[int]]] = {}

        self.req_output_token_ids: list[Optional[list[int]]] = []

    @property
    def req_ids(self) -> list[str]:
        # None elements should only be present transiently
        # while performing state updates to the batch.
        return cast(list[str], self._req_ids)

    def add_request(
        self,
        request: "CachedRequestState",
        req_index: Optional[int] = None,
    ) -> None:
        if req_index is None:
            req_index = self.num_reqs
        assert req_index < self.max_num_reqs

        req_id = request.req_id
        if req_index == len(self._req_ids):
            self._req_ids.append(req_id)
            self.req_output_token_ids.append(request.output_token_ids)
        else:
            self._req_ids[req_index] = req_id
            self.req_output_token_ids[req_index] = request.output_token_ids

        self.req_id_to_index[req_id] = req_index

        # Copy the prompt token ids and output token ids.
        num_prompt_tokens = len(request.prompt_token_ids)
        self.num_prompt_tokens[req_index] = num_prompt_tokens
        self.token_ids_cpu[
            req_index, :num_prompt_tokens] = request.prompt_token_ids
        start_idx = num_prompt_tokens
        end_idx = start_idx + len(request.output_token_ids)
        self.token_ids_cpu[req_index,
                           start_idx:end_idx] = request.output_token_ids
        # Number of token ids in token_ids_cpu.
        # NOTE(woosuk): This may include spec decode tokens.
        self.num_tokens[req_index] = request.num_tokens
        # Number of tokens without spec decode tokens.
        self.num_tokens_no_spec[req_index] = request.num_tokens

        self.num_computed_tokens_cpu[req_index] = request.num_computed_tokens
        self.block_table.add_row(request.block_ids, req_index)

        sampling_params = request.sampling_params
        assert sampling_params is not None, "pooling requests not supported yet"
        if sampling_params.sampling_type == SamplingType.GREEDY:
            # Avoid later division by zero.
            self.temperature_cpu[req_index] = -1.0
            self.greedy_reqs.add(req_id)
        else:
            self.temperature_cpu[req_index] = sampling_params.temperature
            self.random_reqs.add(req_id)

        self.top_p_cpu[req_index] = sampling_params.top_p
        if sampling_params.top_p < 1:
            self.top_p_reqs.add(req_id)
        top_k = sampling_params.top_k
        if 0 < top_k < self.vocab_size:
            self.top_k_reqs.add(req_id)
        else:
            top_k = self.vocab_size
        self.top_k_cpu[req_index] = top_k
        self.min_p_cpu[req_index] = sampling_params.min_p
        self.frequency_penalties_cpu[
            req_index] = sampling_params.frequency_penalty
        if sampling_params.min_p > _SAMPLING_EPS:
            self.min_p_reqs.add(req_id)
        if sampling_params.frequency_penalty != 0.0:
            self.frequency_penalties_reqs.add(req_id)
        self.presence_penalties_cpu[
            req_index] = sampling_params.presence_penalty
        if sampling_params.presence_penalty != 0.0:
            self.presence_penalties_reqs.add(req_id)
        self.repetition_penalties_cpu[
            req_index] = sampling_params.repetition_penalty
        if sampling_params.repetition_penalty != 1.0:
            self.repetition_penalties_reqs.add(req_id)
        if sampling_params.min_tokens:
            self.min_tokens[req_index] = (sampling_params.min_tokens,
                                          sampling_params.all_stop_token_ids)

        # NOTE(woosuk): self.generators should not include the requests that
        # do not have their own generator.
        if request.generator is not None:
            self.generators[req_index] = request.generator

        if sampling_params.logprobs is not None:
            self.num_logprobs[req_id] = sampling_params.logprobs
        if sampling_params.prompt_logprobs is not None:
            self.num_prompt_logprobs[req_id] = sampling_params.prompt_logprobs
        if sampling_params.logit_bias is not None:
            self.logit_bias[req_index] = sampling_params.logit_bias

        if sampling_params.allowed_token_ids:
            self.has_allowed_token_ids.add(req_id)
            if self.allowed_token_ids_mask_cpu_tensor is None:
                # Lazy allocation for this tensor, which can be large.
                # False means we don't fill with -inf.
                self.allowed_token_ids_mask = torch.zeros(self.max_num_reqs,
                                                          self.vocab_size,
                                                          dtype=torch.bool,
                                                          device=self.device)
                self.allowed_token_ids_mask_cpu_tensor = torch.zeros(
                    self.max_num_reqs,
                    self.vocab_size,
                    dtype=torch.bool,
                    device="cpu")
            self.allowed_token_ids_mask_cpu_tensor[req_index] = True
            # False means we don't fill with -inf.
            self.allowed_token_ids_mask_cpu_tensor[req_index][
                sampling_params.allowed_token_ids] = False

        if sampling_params.bad_words_token_ids:
            self.bad_words_token_ids[
                req_index] = sampling_params.bad_words_token_ids

        # Add request lora ID
        if request.lora_request:
            lora_id = request.lora_request.lora_int_id
            if lora_id not in self.lora_id_to_request_ids:
                self.lora_id_to_request_ids[lora_id] = set()

            self.request_lora_mapping[req_index] = lora_id
            self.lora_id_to_request_ids[lora_id].add(request.req_id)
            self.lora_id_to_lora_request[lora_id] = request.lora_request
        else:
            # No LoRA
            self.request_lora_mapping[req_index] = 0

    def remove_request(self, req_id: str) -> Optional[int]:
        """This method must always be followed by a call to condense()."""

        req_index = self.req_id_to_index.pop(req_id, None)
        if req_index is None:
            return None
        self._req_ids[req_index] = None
        self.req_output_token_ids[req_index] = None

        self.greedy_reqs.discard(req_id)
        self.random_reqs.discard(req_id)
        self.top_p_reqs.discard(req_id)
        self.top_k_reqs.discard(req_id)
        self.min_p_reqs.discard(req_id)
        self.min_tokens.pop(req_index, None)
        self.frequency_penalties_reqs.discard(req_id)
        self.presence_penalties_reqs.discard(req_id)
        self.repetition_penalties_reqs.discard(req_id)
        self.generators.pop(req_index, None)
        self.num_logprobs.pop(req_id, None)
        self.num_prompt_logprobs.pop(req_id, None)
        self.in_progress_prompt_logprobs_cpu.pop(req_id, None)

        # LoRA
        lora_id = self.request_lora_mapping[req_index]
        if lora_id != 0:
            self.lora_id_to_request_ids[lora_id].discard(req_id)
            if len(self.lora_id_to_request_ids[lora_id]) == 0:
                self.lora_id_to_request_ids.pop(lora_id)
                self.lora_id_to_lora_request.pop(lora_id)
            self.request_lora_mapping[req_index] = 0

        self.logit_bias[req_index] = None
        self.has_allowed_token_ids.discard(req_id)
        if self.allowed_token_ids_mask_cpu_tensor is not None:
            # False means we don't fill with -inf.
            self.allowed_token_ids_mask_cpu_tensor[req_index].fill_(False)
        self.bad_words_token_ids.pop(req_index, None)
        return req_index

    def swap_states(self, i1: int, i2: int) -> None:
        old_id_i1 = self._req_ids[i1]
        old_id_i2 = self._req_ids[i2]
        self._req_ids[i1], self._req_ids[i2] =\
            self._req_ids[i2], self._req_ids[i1] # noqa
        self.req_output_token_ids[i1], self.req_output_token_ids[i2] =\
            self.req_output_token_ids[i2], self.req_output_token_ids[i1]
        assert old_id_i1 is not None and old_id_i2 is not None
        self.req_id_to_index[old_id_i1], self.req_id_to_index[old_id_i2] =\
            self.req_id_to_index[old_id_i2], self.req_id_to_index[old_id_i1]
        self.num_tokens[i1], self.num_tokens[i2] =\
            self.num_tokens[i2], self.num_tokens[i1]
        self.num_tokens_no_spec[i1], self.num_tokens_no_spec[i2] =\
            self.num_tokens_no_spec[i2], self.num_tokens_no_spec[i1]
        self.num_prompt_tokens[i1], self.num_prompt_tokens[i2] =\
            self.num_prompt_tokens[i2], self.num_prompt_tokens[i1]
        self.num_computed_tokens_cpu[i1], self.num_computed_tokens_cpu[i2] =\
            self.num_computed_tokens_cpu[i2], self.num_computed_tokens_cpu[i1]
        self.temperature_cpu[i1], self.temperature_cpu[i2] =\
            self.temperature_cpu[i2], self.temperature_cpu[i1]
        self.top_p_cpu[i1], self.top_p_cpu[i2] =\
            self.top_p_cpu[i2], self.top_p_cpu[i1]
        self.top_k_cpu[i1], self.top_k_cpu[i2] =\
            self.top_k_cpu[i2], self.top_k_cpu[i1]
        self.frequency_penalties_cpu[i1], self.frequency_penalties_cpu[i2] =\
            self.frequency_penalties_cpu[i2], self.frequency_penalties_cpu[i1]
        self.presence_penalties_cpu[i1], self.presence_penalties_cpu[i2] =\
            self.presence_penalties_cpu[i2], self.presence_penalties_cpu[i1]
        self.repetition_penalties_cpu[i1], self.repetition_penalties_cpu[i2] =\
            self.repetition_penalties_cpu[i2], self.repetition_penalties_cpu[i1]
        self.min_p_cpu[i1], self.min_p_cpu[i2] =\
            self.min_p_cpu[i2], self.min_p_cpu[i1]

        # NOTE: the following is unsafe
        # self.token_ids_cpu[i1, ...], self.token_ids_cpu[i2, ...], =\
        #     self.token_ids_cpu[i2, ...], self.token_ids_cpu[i1, ...]
        # instead, we need to temporiarily copy the data for one of the indices
        # TODO(lucas): optimize this by only copying valid indices
        tmp = self.token_ids_cpu[i1, ...].copy()
        self.token_ids_cpu[i1, ...] = self.token_ids_cpu[i2, ...]
        self.token_ids_cpu[i2, ...] = tmp

        swap_dict_values(self.generators, i1, i2)
        swap_dict_values(self.min_tokens, i1, i2)
        swap_dict_values(self.bad_words_token_ids, i1, i2)

        self.request_lora_mapping[i1], self.request_lora_mapping[i2] =\
            self.request_lora_mapping[i2], self.request_lora_mapping[i1]
        self.logit_bias[i1], self.logit_bias[i2] =\
            self.logit_bias[i2], self.logit_bias[i1]

        if self.allowed_token_ids_mask_cpu_tensor is not None:
            self.allowed_token_ids_mask_cpu_tensor[i1], \
                self.allowed_token_ids_mask_cpu_tensor[i2] =\
                self.allowed_token_ids_mask_cpu_tensor[i2], \
                    self.allowed_token_ids_mask_cpu_tensor[i1]
        self.block_table.swap_row(i1, i2)

    def condense(self, empty_req_indices: list[int]) -> None:
        """Move non-empty requests down into lower, empty indices.

        Args:
          empty_req_indices: empty batch indices, sorted descending.
        """
        num_reqs = self.num_reqs
        if num_reqs == 0:
            # The batched states are empty.
            self._req_ids.clear()
            self.req_output_token_ids.clear()
            return

        # NOTE(woosuk): This function assumes that the empty_req_indices
        # is sorted in descending order.
        last_req_index = num_reqs + len(empty_req_indices) - 1
        while empty_req_indices:
            # Find the largest non-empty index.
            while last_req_index in empty_req_indices:
                last_req_index -= 1

            # Find the smallest empty index.
            empty_index = empty_req_indices.pop()
            if empty_index >= last_req_index:
                break

            # Swap the states.
            req_id = self._req_ids[last_req_index]
            output_token_ids = self.req_output_token_ids[last_req_index]
            assert req_id is not None
            self._req_ids[empty_index] = req_id
            self._req_ids[last_req_index] = None
            self.req_output_token_ids[empty_index] = output_token_ids
            self.req_output_token_ids[last_req_index] = None
            self.req_id_to_index[req_id] = empty_index

            num_tokens = self.num_tokens[last_req_index]
            self.token_ids_cpu[empty_index, :num_tokens] = self.token_ids_cpu[
                last_req_index, :num_tokens]
            self.num_tokens[empty_index] = num_tokens
            self.num_tokens_no_spec[empty_index] = self.num_tokens_no_spec[
                last_req_index]
            self.num_prompt_tokens[empty_index] = self.num_prompt_tokens[
                last_req_index]
            self.num_computed_tokens_cpu[
                empty_index] = self.num_computed_tokens_cpu[last_req_index]
            self.block_table.move_row(last_req_index, empty_index)
            self.temperature_cpu[empty_index] = self.temperature_cpu[
                last_req_index]
            self.top_p_cpu[empty_index] = self.top_p_cpu[last_req_index]
            self.top_k_cpu[empty_index] = self.top_k_cpu[last_req_index]
            self.frequency_penalties_cpu[
                empty_index] = self.frequency_penalties_cpu[last_req_index]
            self.presence_penalties_cpu[
                empty_index] = self.presence_penalties_cpu[last_req_index]
            self.repetition_penalties_cpu[
                empty_index] = self.repetition_penalties_cpu[last_req_index]
            self.min_p_cpu[empty_index] = self.min_p_cpu[last_req_index]
            generator = self.generators.pop(last_req_index, None)
            if generator is not None:
                self.generators[empty_index] = generator

            min_token = self.min_tokens.pop(last_req_index, None)
            if min_token is not None:
                self.min_tokens[empty_index] = min_token

            self.request_lora_mapping[empty_index] = self.request_lora_mapping[
                last_req_index]

            self.logit_bias[empty_index] = self.logit_bias[last_req_index]

            if self.allowed_token_ids_mask_cpu_tensor is not None:
                self.allowed_token_ids_mask_cpu_tensor[
                    empty_index] = self.allowed_token_ids_mask_cpu_tensor[
                        last_req_index]

            bad_words_token_ids = self.bad_words_token_ids.pop(
                last_req_index, None)
            if bad_words_token_ids is not None:
                self.bad_words_token_ids[empty_index] = bad_words_token_ids
            # Decrement last_req_index since it is now empty.
            last_req_index -= 1

        # Trim lists to the batch size.
        del self._req_ids[self.num_reqs:]
        del self.req_output_token_ids[self.num_reqs:]

    def _make_prompt_token_ids_tensor(self) -> torch.Tensor:
        max_prompt_len = self.num_prompt_tokens[:self.num_reqs].max()
        prompt_token_ids_cpu_tensor = torch.empty(
            (self.num_reqs, max_prompt_len),
            device="cpu",
            dtype=torch.int64,
            pin_memory=self.pin_memory,
        )
        prompt_token_ids = prompt_token_ids_cpu_tensor.numpy()
        prompt_token_ids[:] = self.token_ids_cpu[:self.
                                                 num_reqs, :max_prompt_len]
        # Use the value of vocab_size as a pad since we don't have a
        # token_id of this value.
        for i in range(self.num_reqs):
            prompt_token_ids[i, self.num_prompt_tokens[i]:] = self.vocab_size
        return prompt_token_ids_cpu_tensor.to(device=self.device,
                                              non_blocking=True)

    def make_lora_inputs(
        self, num_scheduled_tokens: np.ndarray
    ) -> tuple[tuple[int, ...], tuple[int, ...], set[LoRARequest]]:
        """
        Given the num_scheduled_tokens for each request in the batch, return
        datastructures used to activate the current LoRAs.
        Returns:
            1. prompt_lora_mapping: A tuple of size self.num_reqs where,
               prompt_lora_mapping[i] is the LoRA id to use for the ith prompt.
            2. token_lora_mapping: A tuple of size np.sum(num_scheduled_tokens)
               where, token_lora_mapping[i] is the LoRA id to use for ith token.
            3. lora_requests: Set of relevant LoRA requests.
        """

        req_lora_mapping = self.request_lora_mapping[:self.num_reqs]
        prompt_lora_mapping = tuple(req_lora_mapping)
        token_lora_mapping = tuple(
            req_lora_mapping.repeat(num_scheduled_tokens))
        active_lora_requests: set[LoRARequest] = set(
            self.lora_id_to_lora_request.values())

        return prompt_lora_mapping, token_lora_mapping, active_lora_requests

    @property
    def num_reqs(self) -> int:
        return len(self.req_id_to_index)

    @property
    def all_greedy(self) -> bool:
        return len(self.random_reqs) == 0

    @property
    def all_random(self) -> bool:
        return len(self.greedy_reqs) == 0

    @property
    def no_top_p(self) -> bool:
        return len(self.top_p_reqs) == 0

    @property
    def no_top_k(self) -> bool:
        return len(self.top_k_reqs) == 0

    @property
    def no_min_p(self) -> bool:
        return len(self.min_p_reqs) == 0

    @property
    def no_penalties(self) -> bool:
        return (len(self.presence_penalties_reqs) == 0
                and len(self.frequency_penalties_reqs) == 0
                and len(self.repetition_penalties_reqs) == 0)

    @property
    def max_num_logprobs(self) -> Optional[int]:
        return max(self.num_logprobs.values()) if self.num_logprobs else None

    @property
    def no_prompt_logprob(self) -> bool:
        return not self.num_prompt_logprobs

    @property
    def no_allowed_token_ids(self) -> bool:
        return len(self.has_allowed_token_ids) == 0

_req_ids instance-attribute

_req_ids: list[Optional[str]] = []

all_greedy property

all_greedy: bool

all_random property

all_random: bool

allowed_token_ids_mask instance-attribute

allowed_token_ids_mask: Optional[Tensor] = None

allowed_token_ids_mask_cpu_tensor instance-attribute

allowed_token_ids_mask_cpu_tensor: Optional[Tensor] = None

bad_words_token_ids instance-attribute

bad_words_token_ids: dict[int, list[list[int]]] = {}

block_table instance-attribute

block_table = MultiGroupBlockTable(
    max_num_reqs=max_num_reqs,
    max_model_len=max_model_len,
    max_num_batched_tokens=max_num_batched_tokens,
    pin_memory=pin_memory,
    device=device,
    block_sizes=block_sizes,
)

device instance-attribute

device = device

frequency_penalties instance-attribute

frequency_penalties = empty(
    (max_num_reqs,), dtype=float, device=device
)

frequency_penalties_cpu instance-attribute

frequency_penalties_cpu = numpy()

frequency_penalties_cpu_tensor instance-attribute

frequency_penalties_cpu_tensor = empty(
    (max_num_reqs,),
    dtype=float,
    device="cpu",
    pin_memory=pin_memory,
)

frequency_penalties_reqs instance-attribute

frequency_penalties_reqs: set[str] = set()

generators instance-attribute

generators: dict[int, Generator] = {}

greedy_reqs instance-attribute

greedy_reqs: set[str] = set()

has_allowed_token_ids instance-attribute

has_allowed_token_ids: set[str] = set()

in_progress_prompt_logprobs_cpu instance-attribute

in_progress_prompt_logprobs_cpu: dict[
    str, LogprobsTensors
] = {}

logit_bias instance-attribute

logit_bias: list[Optional[dict[int, float]]] = [
    None
] * max_num_reqs

lora_id_to_lora_request instance-attribute

lora_id_to_lora_request: dict[int, LoRARequest] = {}

lora_id_to_request_ids instance-attribute

lora_id_to_request_ids: dict[int, set[str]] = {}

max_model_len instance-attribute

max_model_len = max_model_len

max_num_batched_tokens instance-attribute

max_num_batched_tokens = max_num_batched_tokens

max_num_logprobs property

max_num_logprobs: Optional[int]

max_num_reqs instance-attribute

max_num_reqs = max_num_reqs

min_p instance-attribute

min_p = empty((max_num_reqs,), dtype=float32, device=device)

min_p_cpu instance-attribute

min_p_cpu = numpy()

min_p_cpu_tensor instance-attribute

min_p_cpu_tensor = empty(
    (max_num_reqs,),
    dtype=float32,
    device="cpu",
    pin_memory=pin_memory,
)

min_p_reqs instance-attribute

min_p_reqs: set[str] = set()

min_tokens instance-attribute

min_tokens: dict[int, tuple[int, set[int]]] = {}

no_allowed_token_ids property

no_allowed_token_ids: bool

no_min_p property

no_min_p: bool

no_penalties property

no_penalties: bool

no_prompt_logprob property

no_prompt_logprob: bool

no_top_k property

no_top_k: bool

no_top_p property

no_top_p: bool

num_computed_tokens_cpu instance-attribute

num_computed_tokens_cpu = numpy()

num_computed_tokens_cpu_tensor instance-attribute

num_computed_tokens_cpu_tensor = zeros(
    (max_num_reqs,),
    device="cpu",
    dtype=int32,
    pin_memory=pin_memory,
)

num_logprobs instance-attribute

num_logprobs: dict[str, int] = {}

num_prompt_logprobs instance-attribute

num_prompt_logprobs: dict[str, int] = {}

num_prompt_tokens instance-attribute

num_prompt_tokens = zeros(max_num_reqs, dtype=int32)

num_reqs property

num_reqs: int

num_tokens instance-attribute

num_tokens = zeros(max_num_reqs, dtype=int32)

num_tokens_no_spec instance-attribute

num_tokens_no_spec = zeros(max_num_reqs, dtype=int32)

pin_memory instance-attribute

pin_memory = pin_memory

presence_penalties instance-attribute

presence_penalties = empty(
    (max_num_reqs,), dtype=float, device=device
)

presence_penalties_cpu instance-attribute

presence_penalties_cpu = numpy()

presence_penalties_cpu_tensor instance-attribute

presence_penalties_cpu_tensor = empty(
    (max_num_reqs,),
    dtype=float,
    device="cpu",
    pin_memory=pin_memory,
)

presence_penalties_reqs instance-attribute

presence_penalties_reqs: set[str] = set()

random_reqs instance-attribute

random_reqs: set[str] = set()

repetition_penalties instance-attribute

repetition_penalties = empty(
    (max_num_reqs,), dtype=float, device=device
)

repetition_penalties_cpu instance-attribute

repetition_penalties_cpu = numpy()

repetition_penalties_cpu_tensor instance-attribute

repetition_penalties_cpu_tensor = empty(
    (max_num_reqs,),
    dtype=float,
    device="cpu",
    pin_memory=pin_memory,
)

repetition_penalties_reqs instance-attribute

repetition_penalties_reqs: set[str] = set()

req_id_to_index instance-attribute

req_id_to_index: dict[str, int] = {}

req_ids property

req_ids: list[str]

req_output_token_ids instance-attribute

req_output_token_ids: list[Optional[list[int]]] = []

request_lora_mapping instance-attribute

request_lora_mapping = zeros((max_num_reqs,), dtype=int32)

temperature instance-attribute

temperature = empty(
    (max_num_reqs,), dtype=float32, device=device
)

temperature_cpu instance-attribute

temperature_cpu = numpy()

temperature_cpu_tensor instance-attribute

temperature_cpu_tensor = empty(
    (max_num_reqs,),
    dtype=float32,
    device="cpu",
    pin_memory=pin_memory,
)

token_ids_cpu instance-attribute

token_ids_cpu = numpy()

token_ids_cpu_tensor instance-attribute

token_ids_cpu_tensor = zeros(
    (max_num_reqs, max_model_len),
    device="cpu",
    dtype=int32,
    pin_memory=False,
)

top_k instance-attribute

top_k = empty((max_num_reqs,), dtype=int32, device=device)

top_k_cpu instance-attribute

top_k_cpu = numpy()

top_k_cpu_tensor instance-attribute

top_k_cpu_tensor = empty(
    (max_num_reqs,),
    dtype=int32,
    device="cpu",
    pin_memory=pin_memory,
)

top_k_reqs instance-attribute

top_k_reqs: set[str] = set()

top_p instance-attribute

top_p = empty((max_num_reqs,), dtype=float32, device=device)

top_p_cpu instance-attribute

top_p_cpu = numpy()

top_p_cpu_tensor instance-attribute

top_p_cpu_tensor = empty(
    (max_num_reqs,),
    dtype=float32,
    device="cpu",
    pin_memory=pin_memory,
)

top_p_reqs instance-attribute

top_p_reqs: set[str] = set()

vocab_size instance-attribute

vocab_size = vocab_size

__init__

__init__(
    max_num_reqs: int,
    max_model_len: int,
    max_num_batched_tokens: int,
    device: device,
    pin_memory: bool,
    vocab_size: int,
    block_sizes: list[int],
)

Source code in vllm/v1/worker/tpu_input_batch.py

def __init__(
        self,
        max_num_reqs: int,
        max_model_len: int,
        max_num_batched_tokens: int,
        device: torch.device,
        pin_memory: bool,
        vocab_size: int,
        block_sizes: list[int],  # The block_size of each kv cache group
):
    self.max_num_reqs = max_num_reqs
    self.max_model_len = max_model_len
    self.max_num_batched_tokens = max_num_batched_tokens
    self.device = device
    self.pin_memory = pin_memory
    self.vocab_size = vocab_size

    self._req_ids: list[Optional[str]] = []
    self.req_id_to_index: dict[str, int] = {}

    # TODO(woosuk): This buffer could be too large if max_model_len is big.
    # Find a way to reduce the CPU memory usage.
    # This buffer is not directly transferred to the GPU, so it does not
    # need to be pinned.
    self.token_ids_cpu_tensor = torch.zeros(
        (max_num_reqs, max_model_len),
        device="cpu",
        dtype=torch.int32,
        pin_memory=False,
    )
    self.token_ids_cpu = self.token_ids_cpu_tensor.numpy()
    self.num_tokens = np.zeros(max_num_reqs, dtype=np.int32)
    self.num_tokens_no_spec = np.zeros(max_num_reqs, dtype=np.int32)
    self.num_prompt_tokens = np.zeros(max_num_reqs, dtype=np.int32)
    self.num_computed_tokens_cpu_tensor = torch.zeros(
        (max_num_reqs, ),
        device="cpu",
        dtype=torch.int32,
        pin_memory=pin_memory,
    )
    self.num_computed_tokens_cpu = \
        self.num_computed_tokens_cpu_tensor.numpy()

    # Block table.
    self.block_table = MultiGroupBlockTable(
        max_num_reqs=max_num_reqs,
        max_model_len=max_model_len,
        max_num_batched_tokens=max_num_batched_tokens,
        pin_memory=pin_memory,
        device=device,
        block_sizes=block_sizes,
    )

    # Sampling-related.
    self.temperature = torch.empty((max_num_reqs, ),
                                   dtype=torch.float32,
                                   device=device)
    self.temperature_cpu_tensor = torch.empty((max_num_reqs, ),
                                              dtype=torch.float32,
                                              device="cpu",
                                              pin_memory=pin_memory)
    self.temperature_cpu = self.temperature_cpu_tensor.numpy()
    self.greedy_reqs: set[str] = set()
    self.random_reqs: set[str] = set()

    self.top_p = torch.empty((max_num_reqs, ),
                             dtype=torch.float32,
                             device=device)
    self.top_p_cpu_tensor = torch.empty((max_num_reqs, ),
                                        dtype=torch.float32,
                                        device="cpu",
                                        pin_memory=pin_memory)
    self.top_p_cpu = self.top_p_cpu_tensor.numpy()
    self.top_p_reqs: set[str] = set()

    self.top_k = torch.empty((max_num_reqs, ),
                             dtype=torch.int32,
                             device=device)
    self.top_k_cpu_tensor = torch.empty((max_num_reqs, ),
                                        dtype=torch.int32,
                                        device="cpu",
                                        pin_memory=pin_memory)
    self.top_k_cpu = self.top_k_cpu_tensor.numpy()
    self.top_k_reqs: set[str] = set()

    self.min_p = torch.empty((max_num_reqs, ),
                             dtype=torch.float32,
                             device=device)
    self.min_p_cpu_tensor = torch.empty((max_num_reqs, ),
                                        dtype=torch.float32,
                                        device="cpu",
                                        pin_memory=pin_memory)
    self.min_p_cpu = self.min_p_cpu_tensor.numpy()
    self.min_p_reqs: set[str] = set()

    # Frequency penalty related data structures
    self.frequency_penalties = torch.empty((max_num_reqs, ),
                                           dtype=torch.float,
                                           device=device)
    self.frequency_penalties_cpu_tensor = torch.empty(
        (max_num_reqs, ),
        dtype=torch.float,
        device="cpu",
        pin_memory=pin_memory)
    self.frequency_penalties_cpu = \
        self.frequency_penalties_cpu_tensor.numpy()
    self.frequency_penalties_reqs: set[str] = set()

    # Presence penalty related data structures
    self.presence_penalties = torch.empty((max_num_reqs, ),
                                          dtype=torch.float,
                                          device=device)
    self.presence_penalties_cpu_tensor = torch.empty((max_num_reqs, ),
                                                     dtype=torch.float,
                                                     device="cpu",
                                                     pin_memory=pin_memory)
    self.presence_penalties_cpu = self.presence_penalties_cpu_tensor.numpy(
    )
    self.presence_penalties_reqs: set[str] = set()

    # Repetition penalty related data structures
    self.repetition_penalties = torch.empty((max_num_reqs, ),
                                            dtype=torch.float,
                                            device=device)
    self.repetition_penalties_cpu_tensor = torch.empty(
        (max_num_reqs, ),
        dtype=torch.float,
        device="cpu",
        pin_memory=pin_memory)
    self.repetition_penalties_cpu = \
        self.repetition_penalties_cpu_tensor.numpy()
    self.repetition_penalties_reqs: set[str] = set()

    # req_index -> (min_tokens, stop_token_ids)
    self.min_tokens: dict[int, tuple[int, set[int]]] = {}

    # lora related
    self.request_lora_mapping = np.zeros((self.max_num_reqs, ),
                                         dtype=np.int32)
    self.lora_id_to_request_ids: dict[int, set[str]] = {}
    self.lora_id_to_lora_request: dict[int, LoRARequest] = {}

    # req_index -> generator
    # NOTE(woosuk): The indices of the requests that do not have their own
    # generator should not be included in the dictionary.
    self.generators: dict[int, torch.Generator] = {}

    self.num_logprobs: dict[str, int] = {}
    # NOTE(rob): num_prompt_logprobs only includes reqs
    # that are currently in the prefill phase.
    self.num_prompt_logprobs: dict[str, int] = {}

    # To accumulate prompt logprobs tensor chunks across prefill steps.
    self.in_progress_prompt_logprobs_cpu: dict[str, LogprobsTensors] = {}

    self.logit_bias: list[Optional[dict[int,
                                        float]]] = [None] * max_num_reqs
    self.has_allowed_token_ids: set[str] = set()
    # NOTE(lufang): In the mask tensor, if the corresponding token allowed,
    # the value is False. Since we use masked_fill_ to set -inf.
    self.allowed_token_ids_mask: Optional[torch.Tensor] = None
    self.allowed_token_ids_mask_cpu_tensor: Optional[torch.Tensor] = None

    # req_index -> bad_words_token_ids
    self.bad_words_token_ids: dict[int, list[list[int]]] = {}

    self.req_output_token_ids: list[Optional[list[int]]] = []

_make_prompt_token_ids_tensor

_make_prompt_token_ids_tensor() -> Tensor

Source code in vllm/v1/worker/tpu_input_batch.py

def _make_prompt_token_ids_tensor(self) -> torch.Tensor:
    max_prompt_len = self.num_prompt_tokens[:self.num_reqs].max()
    prompt_token_ids_cpu_tensor = torch.empty(
        (self.num_reqs, max_prompt_len),
        device="cpu",
        dtype=torch.int64,
        pin_memory=self.pin_memory,
    )
    prompt_token_ids = prompt_token_ids_cpu_tensor.numpy()
    prompt_token_ids[:] = self.token_ids_cpu[:self.
                                             num_reqs, :max_prompt_len]
    # Use the value of vocab_size as a pad since we don't have a
    # token_id of this value.
    for i in range(self.num_reqs):
        prompt_token_ids[i, self.num_prompt_tokens[i]:] = self.vocab_size
    return prompt_token_ids_cpu_tensor.to(device=self.device,
                                          non_blocking=True)

add_request

add_request(
    request: CachedRequestState,
    req_index: Optional[int] = None,
) -> None

Source code in vllm/v1/worker/tpu_input_batch.py

def add_request(
    self,
    request: "CachedRequestState",
    req_index: Optional[int] = None,
) -> None:
    if req_index is None:
        req_index = self.num_reqs
    assert req_index < self.max_num_reqs

    req_id = request.req_id
    if req_index == len(self._req_ids):
        self._req_ids.append(req_id)
        self.req_output_token_ids.append(request.output_token_ids)
    else:
        self._req_ids[req_index] = req_id
        self.req_output_token_ids[req_index] = request.output_token_ids

    self.req_id_to_index[req_id] = req_index

    # Copy the prompt token ids and output token ids.
    num_prompt_tokens = len(request.prompt_token_ids)
    self.num_prompt_tokens[req_index] = num_prompt_tokens
    self.token_ids_cpu[
        req_index, :num_prompt_tokens] = request.prompt_token_ids
    start_idx = num_prompt_tokens
    end_idx = start_idx + len(request.output_token_ids)
    self.token_ids_cpu[req_index,
                       start_idx:end_idx] = request.output_token_ids
    # Number of token ids in token_ids_cpu.
    # NOTE(woosuk): This may include spec decode tokens.
    self.num_tokens[req_index] = request.num_tokens
    # Number of tokens without spec decode tokens.
    self.num_tokens_no_spec[req_index] = request.num_tokens

    self.num_computed_tokens_cpu[req_index] = request.num_computed_tokens
    self.block_table.add_row(request.block_ids, req_index)

    sampling_params = request.sampling_params
    assert sampling_params is not None, "pooling requests not supported yet"
    if sampling_params.sampling_type == SamplingType.GREEDY:
        # Avoid later division by zero.
        self.temperature_cpu[req_index] = -1.0
        self.greedy_reqs.add(req_id)
    else:
        self.temperature_cpu[req_index] = sampling_params.temperature
        self.random_reqs.add(req_id)

    self.top_p_cpu[req_index] = sampling_params.top_p
    if sampling_params.top_p < 1:
        self.top_p_reqs.add(req_id)
    top_k = sampling_params.top_k
    if 0 < top_k < self.vocab_size:
        self.top_k_reqs.add(req_id)
    else:
        top_k = self.vocab_size
    self.top_k_cpu[req_index] = top_k
    self.min_p_cpu[req_index] = sampling_params.min_p
    self.frequency_penalties_cpu[
        req_index] = sampling_params.frequency_penalty
    if sampling_params.min_p > _SAMPLING_EPS:
        self.min_p_reqs.add(req_id)
    if sampling_params.frequency_penalty != 0.0:
        self.frequency_penalties_reqs.add(req_id)
    self.presence_penalties_cpu[
        req_index] = sampling_params.presence_penalty
    if sampling_params.presence_penalty != 0.0:
        self.presence_penalties_reqs.add(req_id)
    self.repetition_penalties_cpu[
        req_index] = sampling_params.repetition_penalty
    if sampling_params.repetition_penalty != 1.0:
        self.repetition_penalties_reqs.add(req_id)
    if sampling_params.min_tokens:
        self.min_tokens[req_index] = (sampling_params.min_tokens,
                                      sampling_params.all_stop_token_ids)

    # NOTE(woosuk): self.generators should not include the requests that
    # do not have their own generator.
    if request.generator is not None:
        self.generators[req_index] = request.generator

    if sampling_params.logprobs is not None:
        self.num_logprobs[req_id] = sampling_params.logprobs
    if sampling_params.prompt_logprobs is not None:
        self.num_prompt_logprobs[req_id] = sampling_params.prompt_logprobs
    if sampling_params.logit_bias is not None:
        self.logit_bias[req_index] = sampling_params.logit_bias

    if sampling_params.allowed_token_ids:
        self.has_allowed_token_ids.add(req_id)
        if self.allowed_token_ids_mask_cpu_tensor is None:
            # Lazy allocation for this tensor, which can be large.
            # False means we don't fill with -inf.
            self.allowed_token_ids_mask = torch.zeros(self.max_num_reqs,
                                                      self.vocab_size,
                                                      dtype=torch.bool,
                                                      device=self.device)
            self.allowed_token_ids_mask_cpu_tensor = torch.zeros(
                self.max_num_reqs,
                self.vocab_size,
                dtype=torch.bool,
                device="cpu")
        self.allowed_token_ids_mask_cpu_tensor[req_index] = True
        # False means we don't fill with -inf.
        self.allowed_token_ids_mask_cpu_tensor[req_index][
            sampling_params.allowed_token_ids] = False

    if sampling_params.bad_words_token_ids:
        self.bad_words_token_ids[
            req_index] = sampling_params.bad_words_token_ids

    # Add request lora ID
    if request.lora_request:
        lora_id = request.lora_request.lora_int_id
        if lora_id not in self.lora_id_to_request_ids:
            self.lora_id_to_request_ids[lora_id] = set()

        self.request_lora_mapping[req_index] = lora_id
        self.lora_id_to_request_ids[lora_id].add(request.req_id)
        self.lora_id_to_lora_request[lora_id] = request.lora_request
    else:
        # No LoRA
        self.request_lora_mapping[req_index] = 0

condense

condense(empty_req_indices: list[int]) -> None

Move non-empty requests down into lower, empty indices.

Parameters:

Name	Type	Description	Default
empty_req_indices	list[int]	empty batch indices, sorted descending.	required

Source code in vllm/v1/worker/tpu_input_batch.py

def condense(self, empty_req_indices: list[int]) -> None:
    """Move non-empty requests down into lower, empty indices.

    Args:
      empty_req_indices: empty batch indices, sorted descending.
    """
    num_reqs = self.num_reqs
    if num_reqs == 0:
        # The batched states are empty.
        self._req_ids.clear()
        self.req_output_token_ids.clear()
        return

    # NOTE(woosuk): This function assumes that the empty_req_indices
    # is sorted in descending order.
    last_req_index = num_reqs + len(empty_req_indices) - 1
    while empty_req_indices:
        # Find the largest non-empty index.
        while last_req_index in empty_req_indices:
            last_req_index -= 1

        # Find the smallest empty index.
        empty_index = empty_req_indices.pop()
        if empty_index >= last_req_index:
            break

        # Swap the states.
        req_id = self._req_ids[last_req_index]
        output_token_ids = self.req_output_token_ids[last_req_index]
        assert req_id is not None
        self._req_ids[empty_index] = req_id
        self._req_ids[last_req_index] = None
        self.req_output_token_ids[empty_index] = output_token_ids
        self.req_output_token_ids[last_req_index] = None
        self.req_id_to_index[req_id] = empty_index

        num_tokens = self.num_tokens[last_req_index]
        self.token_ids_cpu[empty_index, :num_tokens] = self.token_ids_cpu[
            last_req_index, :num_tokens]
        self.num_tokens[empty_index] = num_tokens
        self.num_tokens_no_spec[empty_index] = self.num_tokens_no_spec[
            last_req_index]
        self.num_prompt_tokens[empty_index] = self.num_prompt_tokens[
            last_req_index]
        self.num_computed_tokens_cpu[
            empty_index] = self.num_computed_tokens_cpu[last_req_index]
        self.block_table.move_row(last_req_index, empty_index)
        self.temperature_cpu[empty_index] = self.temperature_cpu[
            last_req_index]
        self.top_p_cpu[empty_index] = self.top_p_cpu[last_req_index]
        self.top_k_cpu[empty_index] = self.top_k_cpu[last_req_index]
        self.frequency_penalties_cpu[
            empty_index] = self.frequency_penalties_cpu[last_req_index]
        self.presence_penalties_cpu[
            empty_index] = self.presence_penalties_cpu[last_req_index]
        self.repetition_penalties_cpu[
            empty_index] = self.repetition_penalties_cpu[last_req_index]
        self.min_p_cpu[empty_index] = self.min_p_cpu[last_req_index]
        generator = self.generators.pop(last_req_index, None)
        if generator is not None:
            self.generators[empty_index] = generator

        min_token = self.min_tokens.pop(last_req_index, None)
        if min_token is not None:
            self.min_tokens[empty_index] = min_token

        self.request_lora_mapping[empty_index] = self.request_lora_mapping[
            last_req_index]

        self.logit_bias[empty_index] = self.logit_bias[last_req_index]

        if self.allowed_token_ids_mask_cpu_tensor is not None:
            self.allowed_token_ids_mask_cpu_tensor[
                empty_index] = self.allowed_token_ids_mask_cpu_tensor[
                    last_req_index]

        bad_words_token_ids = self.bad_words_token_ids.pop(
            last_req_index, None)
        if bad_words_token_ids is not None:
            self.bad_words_token_ids[empty_index] = bad_words_token_ids
        # Decrement last_req_index since it is now empty.
        last_req_index -= 1

    # Trim lists to the batch size.
    del self._req_ids[self.num_reqs:]
    del self.req_output_token_ids[self.num_reqs:]

make_lora_inputs

make_lora_inputs(
    num_scheduled_tokens: ndarray,
) -> tuple[
    tuple[int, ...], tuple[int, ...], set[LoRARequest]
]

Given the num_scheduled_tokens for each request in the batch, return datastructures used to activate the current LoRAs. Returns: 1. prompt_lora_mapping: A tuple of size self.num_reqs where, prompt_lora_mapping[i] is the LoRA id to use for the ith prompt. 2. token_lora_mapping: A tuple of size np.sum(num_scheduled_tokens) where, token_lora_mapping[i] is the LoRA id to use for ith token. 3. lora_requests: Set of relevant LoRA requests.

Source code in vllm/v1/worker/tpu_input_batch.py

def make_lora_inputs(
    self, num_scheduled_tokens: np.ndarray
) -> tuple[tuple[int, ...], tuple[int, ...], set[LoRARequest]]:
    """
    Given the num_scheduled_tokens for each request in the batch, return
    datastructures used to activate the current LoRAs.
    Returns:
        1. prompt_lora_mapping: A tuple of size self.num_reqs where,
           prompt_lora_mapping[i] is the LoRA id to use for the ith prompt.
        2. token_lora_mapping: A tuple of size np.sum(num_scheduled_tokens)
           where, token_lora_mapping[i] is the LoRA id to use for ith token.
        3. lora_requests: Set of relevant LoRA requests.
    """

    req_lora_mapping = self.request_lora_mapping[:self.num_reqs]
    prompt_lora_mapping = tuple(req_lora_mapping)
    token_lora_mapping = tuple(
        req_lora_mapping.repeat(num_scheduled_tokens))
    active_lora_requests: set[LoRARequest] = set(
        self.lora_id_to_lora_request.values())

    return prompt_lora_mapping, token_lora_mapping, active_lora_requests

remove_request

remove_request(req_id: str) -> Optional[int]

This method must always be followed by a call to condense().

Source code in vllm/v1/worker/tpu_input_batch.py

def remove_request(self, req_id: str) -> Optional[int]:
    """This method must always be followed by a call to condense()."""

    req_index = self.req_id_to_index.pop(req_id, None)
    if req_index is None:
        return None
    self._req_ids[req_index] = None
    self.req_output_token_ids[req_index] = None

    self.greedy_reqs.discard(req_id)
    self.random_reqs.discard(req_id)
    self.top_p_reqs.discard(req_id)
    self.top_k_reqs.discard(req_id)
    self.min_p_reqs.discard(req_id)
    self.min_tokens.pop(req_index, None)
    self.frequency_penalties_reqs.discard(req_id)
    self.presence_penalties_reqs.discard(req_id)
    self.repetition_penalties_reqs.discard(req_id)
    self.generators.pop(req_index, None)
    self.num_logprobs.pop(req_id, None)
    self.num_prompt_logprobs.pop(req_id, None)
    self.in_progress_prompt_logprobs_cpu.pop(req_id, None)

    # LoRA
    lora_id = self.request_lora_mapping[req_index]
    if lora_id != 0:
        self.lora_id_to_request_ids[lora_id].discard(req_id)
        if len(self.lora_id_to_request_ids[lora_id]) == 0:
            self.lora_id_to_request_ids.pop(lora_id)
            self.lora_id_to_lora_request.pop(lora_id)
        self.request_lora_mapping[req_index] = 0

    self.logit_bias[req_index] = None
    self.has_allowed_token_ids.discard(req_id)
    if self.allowed_token_ids_mask_cpu_tensor is not None:
        # False means we don't fill with -inf.
        self.allowed_token_ids_mask_cpu_tensor[req_index].fill_(False)
    self.bad_words_token_ids.pop(req_index, None)
    return req_index

swap_states

swap_states(i1: int, i2: int) -> None

Source code in vllm/v1/worker/tpu_input_batch.py

def swap_states(self, i1: int, i2: int) -> None:
    old_id_i1 = self._req_ids[i1]
    old_id_i2 = self._req_ids[i2]
    self._req_ids[i1], self._req_ids[i2] =\
        self._req_ids[i2], self._req_ids[i1] # noqa
    self.req_output_token_ids[i1], self.req_output_token_ids[i2] =\
        self.req_output_token_ids[i2], self.req_output_token_ids[i1]
    assert old_id_i1 is not None and old_id_i2 is not None
    self.req_id_to_index[old_id_i1], self.req_id_to_index[old_id_i2] =\
        self.req_id_to_index[old_id_i2], self.req_id_to_index[old_id_i1]
    self.num_tokens[i1], self.num_tokens[i2] =\
        self.num_tokens[i2], self.num_tokens[i1]
    self.num_tokens_no_spec[i1], self.num_tokens_no_spec[i2] =\
        self.num_tokens_no_spec[i2], self.num_tokens_no_spec[i1]
    self.num_prompt_tokens[i1], self.num_prompt_tokens[i2] =\
        self.num_prompt_tokens[i2], self.num_prompt_tokens[i1]
    self.num_computed_tokens_cpu[i1], self.num_computed_tokens_cpu[i2] =\
        self.num_computed_tokens_cpu[i2], self.num_computed_tokens_cpu[i1]
    self.temperature_cpu[i1], self.temperature_cpu[i2] =\
        self.temperature_cpu[i2], self.temperature_cpu[i1]
    self.top_p_cpu[i1], self.top_p_cpu[i2] =\
        self.top_p_cpu[i2], self.top_p_cpu[i1]
    self.top_k_cpu[i1], self.top_k_cpu[i2] =\
        self.top_k_cpu[i2], self.top_k_cpu[i1]
    self.frequency_penalties_cpu[i1], self.frequency_penalties_cpu[i2] =\
        self.frequency_penalties_cpu[i2], self.frequency_penalties_cpu[i1]
    self.presence_penalties_cpu[i1], self.presence_penalties_cpu[i2] =\
        self.presence_penalties_cpu[i2], self.presence_penalties_cpu[i1]
    self.repetition_penalties_cpu[i1], self.repetition_penalties_cpu[i2] =\
        self.repetition_penalties_cpu[i2], self.repetition_penalties_cpu[i1]
    self.min_p_cpu[i1], self.min_p_cpu[i2] =\
        self.min_p_cpu[i2], self.min_p_cpu[i1]

    # NOTE: the following is unsafe
    # self.token_ids_cpu[i1, ...], self.token_ids_cpu[i2, ...], =\
    #     self.token_ids_cpu[i2, ...], self.token_ids_cpu[i1, ...]
    # instead, we need to temporiarily copy the data for one of the indices
    # TODO(lucas): optimize this by only copying valid indices
    tmp = self.token_ids_cpu[i1, ...].copy()
    self.token_ids_cpu[i1, ...] = self.token_ids_cpu[i2, ...]
    self.token_ids_cpu[i2, ...] = tmp

    swap_dict_values(self.generators, i1, i2)
    swap_dict_values(self.min_tokens, i1, i2)
    swap_dict_values(self.bad_words_token_ids, i1, i2)

    self.request_lora_mapping[i1], self.request_lora_mapping[i2] =\
        self.request_lora_mapping[i2], self.request_lora_mapping[i1]
    self.logit_bias[i1], self.logit_bias[i2] =\
        self.logit_bias[i2], self.logit_bias[i1]

    if self.allowed_token_ids_mask_cpu_tensor is not None:
        self.allowed_token_ids_mask_cpu_tensor[i1], \
            self.allowed_token_ids_mask_cpu_tensor[i2] =\
            self.allowed_token_ids_mask_cpu_tensor[i2], \
                self.allowed_token_ids_mask_cpu_tensor[i1]
    self.block_table.swap_row(i1, i2)